Patent Application: US-201214351904-A

Abstract:
polyglutamates are well known to be highly biocompatible , biodegradable and multifunctional polymers , which have been already used as building blocks in polymer drug conjugates and polymeric micelles . those systems have been applied to various medical applications ranging from therapy to molecular imaging . furthermore a polyglutamic acid paclitaxel conjugate has already entered clinical studies . in this context , a synthetic pathway to a plethora functional polyglutamates with well - defined structure , adjustable molecular weight and low dispersity applying the ring opening polymerization of n - carboxyanhydrides has been developed . additionally , the acid moieties of the polyglutamates can be activated with 4 -- 4 - methylmorpholinium and various functionalities can be easily introduced by “ post - polymerization modification ” yielding a set orthogonal reactive attachment sides . the reactive moieties , such as azides , maleimides , thiols , alkynes offer the opportunity of specific conjugation of the drugs , targeting moieties or markers . besides introducing reactive groups the functionalization strategy was also used for pegylation of pga reducing charge induced interactions and therefore pharmacological properties , such as blood circulation time may be adjusted . in summary , a tool kit of various polyglutamates has been developed enabling the synthesis of a variety of polymer drug conjugates or polymer based imaging agents . the functional polymeric precursors developed will allow us to functionalize and therefore adjust the polymer properties to a desired application .

Description:
one aspect of the present invention relates to the provision of a new methodology for controlling the polymerization of □- amino acid n - carboxyanhydrides by the use of non - nucleophilic salts , such as , ammonium tetrafluoroborone salts , general method used as follows : r represents alkyl , defined c - terminal attachment sites ( alkyne , azide , activated thiols , etc . ), ethyleneglycol ( eg ) of different sizes including polyethylenglycol ( peg from mw range 100 to 10000 g / mol ) n represents number of repeating units of γ - benzylglutamate in the polymer ranging from 1 to 1 . 000 units the tetrafluoroborone ammonium salts can be easily prepared by the reaction of the corresponding amine with the hbf 4 diethylether complex , purified and stored without detected decomposition or impurities . another aspect of the present invention relates to different di - or tri - blocks systems with adequate end - group functionality to allow further site - specific conjugation , a polymer which is a di - or - triblock with general structures as follows : r1 represents alkyl , defined c - terminal attachment site ( alkyne , azide , activated thiols , halides , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated caboxylic acids ), ethyleneglycol ( eg ) of different sizes including polyethylenglycol ( peg from mw range 100 to 10000 g / mol ) r2 represents alkyl , defined c - terminal attachment sites ( alkyne , azide , activated thiols , halides , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated caboxylic acids ), ethyleneglycol ( eg ) of different sizes including polyethylenglycol ( peg from mw range 100 to 10000 g / mol ), peg - thiol , peg - 4tp r3 represents alkyl , defined c - terminal attachment sites ( alkyne , azide , activated thiols , halides , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated caboxylic acids ), ( eg ) of different sizes including polyethylenglycol ( peg from n = 2 to n = 16 ), aminoacids ( ncluding lysine , arginine , imidazole , histidine , cysteine as well as secondary and tertiary amino groups ) x represents number of monomer units included into r1 definition from 1 to 500 y represents number glutamic units modified with r3 group in the polymer , from 1 to 500 z represents number of glutamic units without modification in the polymer , from 1 to 1000 p represents number of monomer units included into r3 definition , from 1 to 500 r2 and r3 can be used to conjugate bioactive agents ( including low mw drugs , peptides , proteins , antibodies ), fluorescence / nir probes , coordination complexes for mri , pet and spect probes as used therein in this patent , the term “ treatment ” includes treatment , prevention and management of such condition . the term “ pharmaceutically acceptable ” as used herein refers to those compounds , compositions , and / or dosage forms which are , within the scope of medical judgement , suitable for use in contact with the tissues of humans and animals without excessive toxicity , irritation , allergic response , or other problem or complication , commensurate with a reasonable benefit / risk ratio . in different particular embodiments of the invention r represents n - butylamine , r1 represents m - peg , r2 represents peg optionally bearing an end - group functionality including (— oh , — sh , — s — s - 4tp , any — s - protected derivate , — nh 2 , alkyne , azide , maleimide ) with one or more substituents selected from halogen . in another embodiment r3 represents - eg - alkyne , eg - azide , alkyl , optionally substituted . in another embodiment r3 represents —( ch 2 ) 2 - phenyl optionally substituted with one or more substituents selected from halogen . in another embodiment r3 represents coordination complexes , as for example gd - dtpa or ga - dota , tc - dtpa , cu - polyamine . in the polymer drug conjugate , the polyglutamic acid may be poly - l - glutamic acid , poly - d - glutamic acid or poly - dl - glutamic acid . in one embodiment of the invention polyglutamic acid is poly ( l - glutamic acid ). furthermore , all possible combinations of the above - mentioned embodiments form also part of this invention . the present invention relates to a process for the preparation of the above said novel compounds , their derivatives , their analogues , their tautomeric forms , their stereoisomers , their polymorphs or their pharmaceutical acceptable salts and solvates . the polymers of the present invention are carriers for delivery and administration of drugs or molecular imaging agents . therefore , they are useful for the diagnosis , treatment or prevention of pathologies depending on the conjugated cargo . the polymers and the conjugated derivatives of the present invention can be administered in the form of any pharmaceutical formulation . the pharmaceutical formulation will depend upon the nature of the active compound and its route of administration . any route of administration may be used , for example such as oral , buccal , pulmonary , topical , parenteral ( including subcutaneous , intramuscular , and intravenous ), transdermal , ocular ( ophthalmic ), inhalation , intranasal , otic , transmucosal , implant or rectal administration . injectable preparations for parenteral administration comprise sterile solutions , suspensions or sterile emulsions in oily or aqueous vehicles , and may contain coadjuvants , such as suspending , stabilizing , tonicity agents or dispersing agents . the compound can also be formulated for its topical application . formulations include serums , creams , lotions , gels , powders , solutions , shampoo preparations , oral paste , mouth wash preparations and patches wherein the compound is dispersed or dissolved in suitable excipients . in one embodiment of the invention the pharmaceutical composition is in the form of nanospheres , microparticles and nanoparticles . synthesis of γ - benzyl l - glutamate n - carboxyanhydride ( nca ) from l - glutamic acid γ - benzyl ester and diphosgene by using limonene as hcl cleavage α - amino acid n - carboxy anhydrides ( ncas ) synthesis can be divided into two groups depending on the nature of the amino acid substrate . the first is the leuchs method and is based on the cyclization of n - alkoxycarbonyl amino acid halides to form the α - amino acid n - carboxy anhydride . the second is called the fuchs - farthing method , and involves the direct phosgenation of unprotected α - amino acids , see γ - benzyl - l - glutamate n - carboxyanhydride synthesis below . the protocol was adapted from n . m . b smeets et al . “ a scalable synthesis of l - leucine - n - carboxyanhydre ”. organic process research & amp ; development 2005 , 9 , 757 - 763 a variation of the fuchs - farthing method . in addition , some variations like the removal of remaining phosgene or hcl by a nitrogen flow prior to precipitation followed by recrystallization and filtration under schlenk conditions to avoid impurities and enhance storage stability . phosgene could have been used in the reaction , but this would lead to a lack of stoichiometric control . as a result excessive use of phosgene is likely to occur generating the formation of the contaminations . those are the amino acid chloride hydrochloride formed by the hcl cleavage of the nca ring , which can be phosgenated in a second step to form α - isocyanate acid chlorides . both byproducts are critical in the polymerization of ncas and will lead to a broad or even multimodal molecular weight distribution . thus we have chosen to use the liquid trichloromethyl chloroformate ( diphosgene ) which decomposes by temperature yielding phosgene thus to the stoichiometric control can be easily obtained . due to the need for thermal decomposition higher temperatures are mandatory than in the conventional fuchs - farthing method ( 40 - 50 ° c .). the mechanism of the reaction involves the direct phosgenation of unprotected α - amino acids . cyclization proceeds through the formation of n - chloroformyl amino acid intermediates and the loss of a second hcl molecule completes the nca . the reaction generates 2 equivalents of hcl per molecule of nca . the hcl , as reported above can initiate nca self - degradation . in this invention limonene was incorporated to the reaction mixture . the limonene is incorporated to scavenge hcl by addition to its double bonds . amines or other strong bases cannot be used due to the fact that they would attack the formed nca and lead to its decomposition . in contrast limonene acts as an almost non - nuclephilic /- basic hcl scavenger , see the scheme below showing the mechanism of action of limonene . absence of hcl in the purified ncas was confirmed by means of a silver nitrate solution . the presence of hcl can be identified by the precipitation of silver chloride when some drops of a solution 1m of agno 3 are added to a solution of the monomer . the purity of the nca is the main criteria to ensure long term storage . this issue was corroborated with stability studies of the nca under different storage conditions . the results are shown in the table below where a “−” symbol means the monomer was found already polymerized / degraded , whereas “+” means monomer was found to be stable . h - l - glu ( obzi )— oh ( 17 g , 71 . 66 mmol ) was added to a two - neck 250 ml round bottom flask fitted with a stirrer bar , reflux column , dropping funnel and an argon in and outlet . the apparatus was purged with ar for 5 min . afterwards thf ( 120 ml , anhydrous ) was added and the contents were heated to 60 ° c . limonene ( 11 . 6 ml , 71 . 66 mmol , 1 eq ) was added to the stirring suspension before diphosgene ( 5 . 2 ml , 8 . 5 g , 43 mmol , 0 . 6 eq ) dissolved in thf ( 10 ml , anhydrous ) was added via a dropping funnel over a period of 10 min . the reaction was left stirring for 2 hours at 60 ° c . whilst purging with ar leading to a clear solution . the reaction mixture was bubbled with ar to aid the removal of remaining hcl for 2 hours whilst the ar outlet was directed through an aqueous 1m sodium hydroxide solution to neutralize the gas . the reaction solvent was reduced to a quarter of the original volume by rotary evaporation and ethyl acetate ( 32 ml ) was added . the contents were added to ice cold hexane ( 200 ml ) to form a white precipitate , which was isolated by vacuum filtration and washed with cold hexane . the solid was recrystallized from toluene ( 50 ml , anhydrous ) and thf ( 30 ml , anhydrous ) under inert atmosphere ( n2 or ar ) by using a 250 ml two neck - flask 250 round bottom flask fitted with a stirrer bar , reflux column and an argon inlet and outlet where crystallization was induced by a dropwise addition of cold hexane ( 27 ml ). the solution was stored for one hour at 4 ° c ., and then at − 20 ° c . overnight . finally the white crystals were filtered under ar conditions by using schlenck techniques , and stored at − 20 ° c . to ensure that residual hcl had been successfully removed , nca ( 2 - 4 mg ) was dissolved in thf ( 0 . 5 ml ) and added to a 1m silver nitrate solution ( 1 ml ) where the solution remained clear . when the ag + and cl − ions meet they form the colorless insoluble agci salt , which can be easily detected . another test is checking the solubility in thf . the nca is soluble in thf , if turbidity is seen in the solution , can be due to the presence of remaining hexane and should disappear by heating the solution , but if precipitation is seen is due to the presence of polymer or starting material ( both not soluble in thf ). yields : 70 - 80 %. melting point : 93 . 4 ° c . molecular formula : c 13 h 13 no 5 . benzyl 3 -( 2 , 5 - dioxooxazol - 4 - il ) propanoate molecular weight : 263 . 25 g / mol 1 h nmr ( 300 mhz , cdcl3 ) δ 7 . 29 ( m , 5h ), 6 . 84 ( s , 1h ), 5 . 07 ( s , 2h ), 4 . 32 ( t , j = 6 . 2 hz , 1h ), 2 . 52 ( t , j = 7 . 0 hz , 2h ), 2 . 31 - 1 . 94 ( m , 2h ). 1 h - nrm spectra of pure final product is shown in fig1 . butylamine ( 200 mg , 2 . 7 mmol ) was dissolve in 1 ml diethylether , and 442 mg ( 2 . 7 mmol ) of tetrafluoroboric acid diethyl ether complex , hbf4 . et2o , was added to the solution leading to the formation of a white solid salt in a quantitative yield . the product was then filtered off and recrystallized two times from ethylacetate . the product was then dried under high vacuum and stored at − 20 ° c . yield : 50 % of a white solid . 1h nmr ( 300 mhz , dmso ) δ 7 . 58 ( s , 3h ), 2 . 84 - 2 . 71 ( m , 2h ), 1 . 56 - 1 . 43 ( m , 2h ), 1 . 39 - 1 . 25 ( m , 2h ), 0 . 89 ( t , j = 7 . 3 hz , 3h ). 13c - nmr ( 300 mhz , dmso - d6 ) δ = 38 . 64 , 29 . 09 , 19 . 08 , 13 . 49 . ea : c : 29 . 61 % ( calc . : 29 . 85 %), h : 7 . 27 % ( calc . : 7 . 51 %), n : 8 . 60 % ( calc . : 8 . 70 %). to 5 ml ( 5 . 59 g , 36 . 74 mmol ) of tetrafluoroboric acid diethyl ether complex , hbf 4 ( et 2 o ), 4 . 31 ml ( 3 . 20 g , 36 . 74 mmol ) of neopentylamine were slowly added . the addition resulted in the precipitation of a slightly red solid . the ether was removed under vacuum and the solid was recrystalized two times from ethylacetate and washed with cyclohexane . the product was dried under vacuum . yield : 42 % of a white . 1h nmr ( 300 mhz , dmso ) δ = 7 . 58 ( s , 3h ), 2 . 63 ( s , 2h ), 0 . 93 ( s , 9h ), 13c nmr ( 300 mhz , dmso ) δ = 49 . 94 , 30 . 21 , 26 . 78 ea : c : 34 . 35 % ( calc . : 34 . 43 %), h : 7 . 99 % ( calc . : 8 . 06 %), n : 8 , 07 % ( calc . : 8 . 00 %). meo - peg ( 2000 )- amine ( 600mg , 0 . 3 mmol , 1892 g / mol ) was dissolve in 3 ml of thf , and 53 . 4 mg ( 0 . 3 mmol , 45 μl ) of tetrafluoroboric acid diethyl ether complex , hbf 4 . et 2 o , was added to the solution leading to the formation of a yellow salt in a quantitative yield . the solvent was removed in a rotary evaporator . the product was then dried under high vacuum and stored at − 20 ° c . yield : quantitative . 1 h - nmr ( 300 mhz , dmso - d6 ): δ ( ppm ): 7 . 69 ( s , 3h ), 3 . 78 - 3 . 70 ( m , 2h ), 3 . 52 ( d , j = 5 . 4 hz , 139h ), 3 . 47 - 3 . 39 ( m , 6h ), 3 . 24 ( s , 3h ), 3 . 06 - 2 . 91 ( m , 2h ). general procedure for nca polymerization . synthesis of poly - γ - benzyl l - glutamate under n 2 conditions by using schlenk techniques γ - benzyl l - glutamate n - carboxyanhydride ( 0 . 5 g , 1 , 9 mmol , mw = 264 g / mol ) was added to a schlenk tube fitted with a stirrer bar , a stopper and purged with 3 cycles of vacuum / ar , under ar flow and dissolved in 5 ml of the solvent ( freshly purified ). afterwards the initiator was added and the mixture was left stirring at 40 ° c . in an oil bath for 3 days under ar / n2 atmosphere with constant pressure . after 3 days reacting the solution was poured in 40 ml of cold diethyl ether leading to a white suspension that was centrifugated at 4 . 000 rpm during 10 minutes . the supernatant was removed and the white solid was then suspended in milliq water and freeze - dried . 1h nmr ( 300 mhz , dmf ) δ 8 . 58 ( s , 1h ), 7 . 42 ( s , 5h ), 5 . 19 ( s , 2h ), 4 . 21 ( s , 1h ), 2 . 81 ( s , 2h ), 2 . 45 ( s , 2h ). 13c nmr ( 101 mhz , dmf ) δ 175 . 94 ( s ), 172 . 26 ( s ), 162 . 77 - 162 . 18 ( m ), 161 . 98 ( s ), 136 . 76 ( s ), 128 . 87 - 127 . 75 ( m ), 66 . 05 ( s ), 57 . 13 ( s ), 35 . 41 - 34 . 17 ( m ), 32 . 48 ( s ), 30 . 84 , 30 . 30 - 29 . 04 ( m ), 27 . 28 ( s ), 25 . 99 ( s ). * note : the corresponding signals of the initiator depend on the initiator used : nbutylammonium ; neopentylammonium ; metoxypolyethylenglicolammonium γ - benzyl l - glutamate n - carboxyanhydride ( 0 . 6 g , 2 . 27 mmol , mw = 264 g / mol ) was dissolved in 6 ml of previously purified dmf . the content was split into 6 slenchk tubes fitted with a stirrer bar , a stopper , and under n 2 atmosphere . afterwards , a solution in dmf of the initiator was prepared , and the corresponding amount was added to each tube . the mixtures were left stirring at 40 ° c . in an oil bath for 4 days under ar / n 2 atmosphere with constant pressure . time points of the kinetics were collected each 14 , 22 , 38 , 46 , 70 , and 96 hours , by precipitation of the polymers into diethyl ether tree times , freeze - dry of the sample in water and gpc analysis of the molecular weight eluting with dmf / libr . as example table 3 displays some of the results obtained in different polymerizations with several bf 4 - initiators , two of them small initiators n - butylammonium tetrafluoroboran and neopentylammonium tetrafluoroboran leading to homopolymer of γ - benzyl - glutamic acid ; and one macroinitiator based on peg ( polyethylenglycol ) of m . w . ˜ near to 2 . 000 and pdi : 1 . 03 , leading to diblock copolymers peg - poly ( y - benzyl - glutamic acid ). the neopentylammonium tetrafluoroboran initiator was used in replacement of n - butylamine in order to facilitate the corresponding assignment of dp by 1h nmr . this is due to the presence of 9 chemically equivalent protons in the initiator ( three metil ch 3 - groups ) which leads to an increase in the sensitivity of the characterization of the polymer by 1 h - nmr spectra . [ p : polymer m ]/[ l ]: monomer to initiator ratio ; dp : degree of polymerization (% of [ m ]/[ l ]) mw : weight average molecular weight ; mn : number average molecular weight pdi : polydispersity index ( ratio mw / mn that gives a measure of the dispersity d ). with dmf as a solvent monomodal distributions with very low polydispersities to low in other cases were obtained in the nca polymerization technique using tetrafluoroborate salts . following the optimization process , the effect of the temperature was also studied . from the literature mentioned in the introduction , it is already known that lower temperatures suppress some side reactions but elongates reaction times . as in the process of optimization the time was kept as a constant parameter , when the reactions were done at lower temperature , lower yields were obtained ( 20 - 30 %). higher temperatures ( 60 , and 80 ° c .) resulted in slightly yellow coloured reactions in the case of 60 ° c ., and strong yellow coloured with 80 ° c ., which can be explained by the decomposition of dmf into dimethylamine and the cleavage of the protecting group at high temperatures , leading to benzyl alcohol , which is yellow coloured . in conclusion , a lack of control is present when high temperatures like 60 ° c . or above are applied in the polymerization . when low temperatures are applied , very poor yields are obtained ( if three days of reaction time are kept ). that is why optimal temperature was set at 40 ° c . for dmf or ranging from 5 - 40 ° c . with dmi . parameters such as concentration of the reaction media where optimized similarly , setting 0 . 38m as the optimal concentration relative to the monomer in the case of dmf . it is a requirement to work in a range of concentrations to avoid less defined polymers . to test whether this methodology could be applicable to every initiator , different initiators based in bf 4 salts were used , as propargylnh 3 bf 4 and n 3 eg ( 2 ) nh 3 bf 4 . the use of these salts as initiators will provide polymers with alkyne and azide moieties respectively in the c - terminus of the polymer , which could be used for bioconjugation afterwards . the following table summarizes the results obtained with the different initiators . a ) note , in the case of eg , peg and propargylammonium initiators , the dp cannot be extracted from the 1 h - nmr spectra because the corresponding signals are overlapped with the water signal . n represents number of γ - benzyl - glutamate units in the polymer , from 1 to 1000 the approximate quantity used for each polymerization ranges from 0 , 5 - 1 grams of monomer . to validate the possibility of an industrial application of the reaction , and taking into account that the polyglutamic acid is supposed to be the polymeric base of different polymer - drug conjugates the synthesis was scaled up . thus , once all these promising preliminary results were obtained , the reaction was scaled up four times to 5 grams by using the optimized conditions . in all cases the pdi of the polymers obtained was 1 . 2 - 1 . 3 and a yield between 80 - 90 % with molecular weights mn : 31 . 47 kda , pdi : 1 . 26 , ([ m ]/[ l ]= 333 ); mn : 26 . 06 kda , pdi : 1 . 27 , ([ m ]/[ l ]= 300 ); mn : 15 . 23 kda pdi : 1 . 18 ([ m ]/[ l ]= 200 ) and mn : 7 . 08 kda pdi : 1 . 19 , ([ m ]/[ l ]= 50 ) respectively as determined by gpc . fig5 includes 1 h - nmr spectra of n - butil - α - polyglutamic acid corresponding to scale up of 5 grams of one of the batches after deprotection , dp = 252 can be confirmed by nmr . three different methodologies to remove benzyl protecting groups were studied . the first of them consist on the use of an acidic medium such as hbr / tfa , the second by using sodium hydroxide in a mixture of thf / water at low temperature , and the third by using hydrogen reducing atmosphere with pd ( oh ) 2 / c as a catalyser . all three methods gave rise to complete deprotection of benzyl group , however , the third of the options herein exposed is restricted to polyglutamates with molecular weights below 10 kda , it also requires of an additional step to remove the catalyser leaving to reduced yields . polymers were characterized using 1 h - nmr and polarimetry until constant values ˜ 0 . 6 were achieved . 100 mg ( 0 . 0035 mmol , mw : 28251 g / mol ) of poly ( y - benzyl - l - glutamate ) were dissolved in 3 ml of trifluoroacetic acid ( tfa ) in a round botton flask fitted with a stopper and a stirring bar . afterwards , 150 mg of hbr 48 % were added ( 0 . 91 mmol , 2 equivalents per carboxyl group ), and the yellow mixture was left stirring for five - eight hours . then , the solution was poured into a large excess of diethyl ether leading to a white solid that was centrifugated removing the white solution . the product was washed three times with diethyl ether . after that , the product was then purified by acid - base precipitation ( nahco3 / hcl 6m ). dyalisis was done leading to the sodium salt form . finally , to get the acid form , the product was then precipitated at ph 3 by adding drops of hcl 6m . yield : quantitative . 1h nmr ( 300 mhz , d 2 o ) δ : 4 . 31 - 4 . 26 ( m , 1h ), 2 . 38 - 2 . 14 ( m , 2h ) 2 . 10 - 1 . 80 ( m , 2h ) 100 mg ( 0 . 0035 mmol , mw : 28251 g / mol ) of poly ( γ - benzyl - l - glutamate ) were dissolved in 7 ml of thf at 4 ° c . then , sodium hydroxide ( 27 . 36 mg , 0 . 684 mmol ) dissolved in 1 ml of h 2 o was added dropwise to the polymer solution and was stirring vigorously during 16 h . solution was then neutralized with acetic acid , thf evaporated under vacuum and the resulting polymer purified directly by dialysis . yield , quantitative . 1 h - nmr ( 300 mhz , d 2 o ) δ : 4 . 31 - 4 . 26 ( m , 1h ), 2 . 38 - 2 . 14 ( m , 2h ) 2 . 10 - 1 . 80 ( m , 2h ) deprotection of poly ( γ - benzyl - l - glutamate ) reducing with pd ( oh ) 2 charcoal in dmf 100 mg ( 0 . 0035 mmol , mw : 28251 g / mol ) of poly ( γ - benzyl - l - glutamate ) were dissolved in 15 ml of n , n - dimethylformamide ( dmf ) absolute , in a round bottom flask fitted with a septum and a stirring bar . then palladium / charcoal was added and the flask was purged with n 2 in order to remove the air . afterwards the n 2 was removed by purging with h 2 . the reaction was left stirring for two days under h 2 atmosphere ( with a ballon full of h 2 ). the purification was carried out pouring the solution into a large excess of diethyl ether . centrifugation leads to a mixture of a white solid with palladium / charcoal . the solid was redissolved in acidic water and filtered through a celite column in a syringe and a filter . as a result , pga was obtained as a white powder . yield : 40 %. triblock systems ( tb ) were obtained by means of the reaction between the peg - pga diblocks ( db ) ( previously obtained using n - peg ( 2000 ) ammonium tetrafluoroborate as initiator ) and nhs - activated peg . general method is explained in detail bellow : x represents an alkyl group , defined c - terminal attachment group ( alkyne , azyde , thiols , halides , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ) m represents number of ethylenglycol repeating units in the polymeric fragment peg used as a first block , from 1 to 500 n represents number of repeating units of γ - benzyl glutamate of the peptidic block , 1 to 1000 p represents number of ethylenglycol repeating units in the polymeric fragment peg used as a third block , from 1 to 500 briefly for tb50 , 750 mg ( 0 . 058 mmol , mw 12854 ) of db50 were dissolved in anhydrous ch 2 cl 2 , the ph was adjusted to 8 . 0 with diea and 209 mg ( 0 . 104 mmol , mw 2007 ) of mpeg - nhs were added . the reaction proceeded overnight under stirring , then the product was purified by extractions , first with naoh 0 . 1 n , then with saturated nacl solution and finally with hcl 0 . 1n . the organic phase was collected , dried with na 2 so 4 , filtered , concentrated under vacuum and precipitated in cold diethyl ether . after 2 h at − 20 ° c ., the precipitated polymer was filtered , washed and dried under vacuum . tb100 , tb200 , tb400 and tb800 , were obtained following the same methodology with the quantities and yields shown in table 5 that follows : following , tb50 was solved in 5 - 7 ml of tfa , then hbr 48 % w / v in acetic acid was added and the reaction proceeded overnight . then the polymer was precipitated in cold diethyl ether and after 2 hours at − 20 ° c ., the precipitate was recovered by centrifugation at 4000 rpm for 10 minutes at 4 ° c . and dried under vacuum . finally , part of the deprotected tbs co - polymers was solved in a calculated amount of sodium bicarbonate and 2 - 3 ml of water . once the polymers were solubilized , the solution was loaded in g25 column and eluted with milliq h 2 o , collecting 50 fractions of 3 ml each , a part the first two , that were of 10 ml . the fractions were lyophilized and some of the fractions were analyzed by 1 h - nmr in d 2 o . if an optional functionality at peg terminus , the tri - block or diblock synthesis is performed by conjugation of a further unit of bi - functional peg . as stated above , peg - pga or n - bupga is obtained reacting nca - l - glu - obn with meopegnh 3 bf4 or nbubf 4 . varying the equivalent ratio monomer : peg , it is possible to obtain di - block with different amount of glutamic - acid unit ( theoretically 200 , 400 and 800 ). the obtained di - block is in its protected form and the protected groups — obn are eliminated in a previous step to the linking of the second polymeric block . this second peg is a bifunctional cooh - peg - sh that is activated in order to obtain nhs - peg - ss - 4tp . this double activation previous to the linking of the polypeptidic block is performed to asure high yields and avoidance of crosslinking reactions . this last block confers tb final structure ( or db in the case nbupga ) an additional semitelechelic linker site capable of conferring specific and selective conjugations to the activated functional group introduced , by formation of disulphide bonds . x represents an alkyl group , defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ) m represents number of ethylenglycol repeating units in the polymeric fragment peg used as a first block , from 1 to 500 n represents number of repeating units of γ - benzyl glutamate of the peptidic block , 1 to 1000 p represents number of ethylenglycol repeating units in the polymeric fragment peg used as a third block , from 1 to 500 in a 50 ml round bottom flask is placed 1 g of selected db previously deprotected ( as example , with 200 residues of ga ; 1 eq ; 27 , 692 g / mol ), dissolved in 20 m dmf and purged with n 2 atm . 1 . 3 eq of nhs - peg - ss - 4tp ( 163 . 4 mg ; 3480 g / mol ) is dissolved in anhydrous dmf ( 3 ml ) and purged with n 2 before being added to the reaction mixture . the ph is increased till 8 with diea ( 1 . 5 ml in this example ). the reaction is left stirring at rt under n 2 atm for 3 days . thereafter , the flask is kept under vacuum to remove the dmf , the product is dissolved in nahco 3 1 m ( 5 ml ) and purified with sec ( sephadex g25 , ddh 2 o ) column . 50 samples of 2 ml ( except for the first and second aliquots of 10 ml each ) fractions were collected . the fractions were lyophilized and the purified tb recollected for further analysis and conjugation . characterization by 1 h - nmr in d 2 o . ( cdcl 3 , 300 mhz ): δ 2 . 8 - 2 . 9 ( 4h , t , j = 6 . 3 hz , h 6 ), δ : 3 . 3 - 3 . 8 ( m , h 3 , 4 , 5 ), δ : 7 . 4 ( 4h , d , j = 4 . 5 hz , h 2 , 2 ), δ : 8 . 4 ( 4h , d , j = 4 . 5 hz , h 1 , 1 ′ ). the ss - 4tp group will allow further conjugation with selected moieties including peptides , proteins or antibodies through a disulfide bound . again , the functionalization yield is assessed with the ellman assay and / or with 4tp assay . yield of the procedure is assessed to be around 35 %; — sh activation around 90 %. to confirm the percentage of 4tp groups introduced in the conjugation , electrophotometric assays , direct quantification ( release of 4tp group ) and indirect quantification ( using ellman assay ) were performed . product was stored for future analysis and linking . yield : 35 %, activation 90 % as seen in table 7 bellow . r1 represents an alkyl group , for example n - butilamine , neopentil amine ; carbonated chain ( saturated and / or insaturated ) with or without electronegative atoms ( i . e . 0 in peg - nh 2 ) x represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halides , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ) n represents number of γ - benzyl glutamate of the peptide block , form 1 to 1000 in a 50 ml round bottom flask , 100 mg of deprotected nbu - pga homopolymer with 200 units of glutamic acid ( 1 g , 258 . 57 g / mol ) is dissolved in 8ml anhydrous dmf at room temperature and the system was purged with n 2 . in a vial , 1 . 5 eq of nhs - peg - ss - 4tp ( 17 mg ; 3357 g / mol ) was dissolved in 2 ml of anhydrous dmf and purged with n 2 before adding to the reaction flask . ph was adjusted to 8 . 0 with diea and left to stir at room temperature under inert atmosphere for 72 h . then , the solvent was evaporated under reduced pressure and the residue redissolved in the minimum volume of nahco 3 1m and purified with sec ( sephadex g25 , ddh 2 o ). 50 samples of 2 ml ( except for the first and second aliquots of 10 ml each ) fractions were collected . the fractions were lyophilized and the purified tb recollected for further analysis and conjugation by 1 h - nmr in d 2 o . to confirm the percentage of 4tp groups introduced in the conjugation , electrophotometric assays , direct quantification ( release of 4tp group ) and indirect quantification ( using ellman assay ) were performed . product was stored for future analysis and linking . yield : 64 %, activation 90 % as seen in table 8 bellow - ss - 4tp functional group will allow , both in tb as in db - ss - 4tp , the subsequent linking of active ligands including peptides , proteins or antibodies by means of a disulphide bond . r1 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000g / mol ). r2 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000g / mol ), peg - thiol , peg - 4tp . r3 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from n = 2 to n = 16 ); amino acids such as lysine , arginine , imidazole , histidine and cysteine , and secondary and tertiary amino groups . x represents number of monomer units into definition r1 , from 1 to 500 y represents number of glutamic units modified with r3 in the polymer , from 1 to 500 z represents number of glutamic units not modified in the polymer , from 1 to 1000 p represents number of monomer units included into r3 definition , from 1 to 500 in a round two necked bottom flask fitted with a stirrer and two septums , 29 mg of polyglutamic acid ( 0 . 225 mmol ga units , 1 eq ) was weighted and dissolved in 1 . 5 ml of dry dmf under n 2 flow . 1 . 12 μl of n , n ′ diisopropylcarbodiimide , dic ( 0 . 85 mg , 0 . 00674 mmol , d = 0 . 806 g / ml , mw = 126 g / mol 0 . 03 eq ) was added and the reaction was left to proceed for 5 minutes . after that 1 mg ( 0 . 00674 mmol , mw = 135 . 1 g / mol 0 . 03 eq ) of hydroxybenzotriazole , hobt was added in solid form . the reaction was then left to proceed for 10 minutes more . afterwards 1 mg ( 2 . 01 · 10 - 3 mmol , mw = 496 , 47 g / mol , 0 . 0089 eq ) of oregon green cadaverine was added . the ph was adjusted to 8 by adding ˜ 100 μl of diea . the mixture was left stirring overnight protected from light . finally , the solvent was removed in the vacuum pump and the product was dissolved in 300 pl of water by adding ˜ 50 μl of 1m nahco 3 and purified by sephadex g25 / pd10 column in milliq water . the oregon green loading was calculated by fluorescence spectroscopy by registration of the fluorescence in all the fractions collected from the column . general labelling efficiency . 80 - 90 %. yield : r1 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000 g / mol ). r2 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000g / mol ), peg - thiol , peg - 4tp . r3 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halides , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from n = 2 to n = 16 ); amino acids such as lysine , arginine , imidazole , histidine and cysteine , and secondary and tertiary amino groups . x represents number of monomer units into definition r1 , from 1 to 500 y represents number of glutamic units modified with r3 in the polymer , from 1 to 500 z represents number of glutamic units not modified in the polymer , from 1 to 1000 p represents number of monomer units included into r3 definition , from 1 to 500 in a two bottle - neck round bottom flask 59 . 6 mg of db200 ( 0 . 355 mmol cooh ) were dissolved in 8 ml of ddh 2 o and left stiring . in a separate vial , 3 . 8 mg of cy5 . 5 — nh 2 ( 1 . 8 % mol , mw = 588 . 36 g / mol ) were dissolved in 13 ml de ddh 2 o which were then added to the reaction . following , 2 . 9 mg of dmtmm . hcl ( mw = 276 . 72 g / mol , 1 . 5 eq ) were added to the reaction . the mixture was left stirring for 48 h protected from light at room temperature and under inert atmosphere . the reaction was monitored by thin layer chromatography ( methanol : acetic acid ). finally the solvent was evaporated under reduced pressure and the residue dissolved in 300 □ l of water . then purified by sec ( sephadex g25 / pd10 ) in milliq water as eluent . cy5 charge was determined by fluorimetry ( λexc . 598 nm , λem 655 nm ) monitoring the signal of each fraction of the column . general efficiency of labelling : 90 . 86 % ( 1 . 63 % mol cy5 . 5 ). yield of the reaction : 60 % post - polymerization modification can be an attractive approach for the synthesis of functional polymers overcoming the limited functional group tolerance of many controlled polymerization techniques . due to all the advantages of the above described methodology of nca polymerization , the exploration of the post - polymerization modification of the well - defined polyglutamates was explored with a view to the incorporation of functionalities for side specific conjugation . for that purpose , the pegylation of pga as well as the incorporation of propargylamine and amino - peg - azide was performed . on one hand , the pegylation is well known as the process of covalent attachment of peg polymer chains to another molecule , normally a drug or therapeutic protein . the covalent attachment of peg to a drug or therapeutic protein can “ mask ” the agent from the host &# 39 ; s immune system ( reduced immunogenicity and antigenicity ), increase the hydrodynamic size ( size in solution ) of the agent which prolongs its circulatory time by reducing renal clearance . pegylation can also provide water solubility to hydrophobic drugs and proteins . therefore , the introduction of pegylated units into the polymer backbone not only will allow us the inclusion of a spacer between the polymer and the corresponding bioactive compound , but also can modify the in vivo behaviour , biodistribution and therapeutic application . on the other hand , the azide and alkyne modification were chosen to have suitable moieties for a click chemistry attachment of the corresponding bioactive compound with all the benefits that this kind of reactions lead as pointed out in the introduction . in a round one neck bottom flask fitted with a stirrer and a stopper , 200 mg of polyglutamic acid ( 1 . 55 mmol unit of glutamic acid , 1 eq ) were suspended in 10 ml of milliq water . afterwards 128 . 7 mg ( 0 . 465 mmol , 0 . 3 eq ) of dmtmmcl − was added dissolved in 5 ml of milliq water . after 10 minutes ( 0 . 93 mmol 0 . 6 eq ) of the corresponding amine were added and the ph was adjusted to 8 by adding some drops of 1m nahco 3 solution . the reaction was allowed to proceed over night stirring at room temperature . after this , as all by products are water soluble , either ultrafiltration ( with a membrane of 3 . 000 mw ), size exclusion chromatography with sephadex g25 columns , was done in order to purify the copolymer or acid / base precipitation . a colorless amorphous solid was yielded after freeze - drying the sample . yield : 80 - 90 %. 1 h - nmr propargyl modified pga ( 300 mhz , d 2 o ) δ : 4 . 30 - 4 . 02 ( m , 1h ), 3 . 81 ( s )*, 2 . 48 ( s )*, 2 . 35 - 2 . 02 ( m , 2h ), 2 . 01 - 1 . 65 ( m , 2h ). 1 h - nmr peg - azide modified pga ( 300 mhz , d 2 o ) δ : 4 . 28 - 4 . 07 ( m , 1 h ), 3 . 65 - 3 . 51 ( m )*, 3 . 48 ( t , j = 5 . 6 hz )*, 3 . 40 - 3 . 30 ( m )*, 3 . 25 ( d , j = 4 . 9 hz )*, 2 . 29 - 2 . 00 ( m , 2h ), 1 . 98 - 1 . 65 ( m , 2h ). 1 h - nmr peg - ome modified pga ( 300 mhz , d 2 o ) 6 : 4 . 33 - 4 . 19 ( m , 1h ), 3 . 95 - 3 . 78 ( m )*, 3 . 77 - 3 . 49 ( m )*, 3 . 34 ( s )*, 2 . 41 - 1 . 76 ( m , 4h ) * the number of corresponding h , depends on the percentage of functionalization of the polymer backbone . post - polymerization modification with propargylamine . the post - polymerization modification of pga with propargylamine was performed as reported by “ k . thompson , s . michelsen . j . poly . sci . : part a : poly . chem . 2006 , 44 , 126 - 136 ” with slight modifications . the activation of the carboxylic acids within the polymer backbone of pga was carried out by using 4 -( 4 , 6 - dimethoxy - 1 , 3 , 5 - triazin - 2 - yl )- 4 - methyl morpholinium chloride ( dmtmmcl − ). afterwards , propargylamine was added into the reaction mixture leading to the corresponding alkyne modified polymer . the mechanism of action of dmtmmcl − is showed below , and consists in the formation of the corresponding activated ester with the release of 4 - methylmorpholine in a first step . this activated ester reacts with the corresponding amine compound by adjusting the ph of the reacting mixture to 8 in order to favor the amine form of the compound instead of the protonated one that coexist in equilibrium , with non nucleophilic character , see scheme below : n represents number of glutamic units , from 1 to 1000 x represents number of units of glutamic modified with propargylamine , from 1 to 1000 the reaction was left to proceed for 16 hours , and different procedures for the purification of the resulting compound were explored : a ) one of them is acid / base precipitation since pga is insoluble when it is as carboxylic acid form , and soluble when it exists as sodium salt form . therefore , as all by - products were water soluble , the resulting polymers were purified by precipitation in acidic water ( ph ˜ 3 - 4 ) and redisolution by basification with sodium bicarbonate . the process was repeated three times to yield white polymers after freeze - drying of the soluble form . b ) ultrafiltration by using a specific membrane of 3 . 000 mw was also tested , leading to the purified compounds after freeze - drying of the samples . c ) sephadex g25 ( size exclusion chromatography ( sec )) columns were also tested for the purification of the compound leading to a good separation by mw of the corresponding polymer . the compound was obtained purified in the first fractions after freeze - drying of the sample . in all the cases the product was obtained pure and with comparable yields (˜ 80 %). it has to be said that ultrafiltration is preferable when large amounts of compound are prepared and sephadex g25 ( pd10 ) columns are preferred when little amounts of compound are prepared . in between , the three methods are completely valid for the purification of the polymeric compound . once purified the alkyne content was quantified by integration of the corresponding signals of the alkyne in the registered 1 h - nmr spectra in deutered water , in comparison with the corresponding signals of pga . concretely , the pick situated at 3 . 81 ppm corresponds with the two protons of the ch 2 of the propargyl residue , and the signal at 2 . 48 ppm corresponds with the acetylenic proton of the propargyl residue . thus , in comparison with the protons of pga , the % of substitution of each polymer was calculated . different polymers with different degree of substitution were synthesized . the degree of substitution according to h - nmr was approximately 60 % of what it was expected from the equivalents added . the results are summarized in the table below . the same procedure used for the incorporation of oligoethylenglicol azides into the polymer backbone . once purified the oligoethylenglicol content was quantified by integration of the corresponding signals of the ethylenglicol unit in the registered 1 h - nmr spectra in deutered water , in comparison with the corresponding signals of pga . concretely , the picks at 3 . 26 , 3 . 35 and 3 . 48 ppm correspond with the ch 2 protons near to the amide group and the azide group . the big signal at 3 . 55 ppm does correspond with the ch 2 located inside the oligoethylenglycol chain plus one of the triplet corresponding to the exterior ch 2 protons . this latter signal changes in its integration whenever the modification is done with eg 2 ( two units of ethylenglicol in the inside chain which correspond with 10 protons ) or eg 6 ( which corresponds with 50 protons ). thus , in comparison with the protons of pga , the % of substitution of each polymer was calculated once more , different polymers with different degrees of substitution were synthesised . the degree of substitution according to 1 h - nmr was approximately 70 - 80 % of the theoretical value for low substitution and around 60 % for higher substitutions . the results are summarised in the table below . different polymers with different degree of pegylation within the polymer backbone were synthesized in order to study the different physic - chemical properties that the pegylation could provide to the polyglutamic acid architectures . for that purpose a metoxy - oligoethylenglycol - amine was used following the same protocol as described before . the set of polymers is summarized in the table below . n represents number of glutamic units , from 1 to 1000 x represents number of glutamic units modified with ethylenglicol , from 1 to 1000 in a two bottle - neck round bottom flask fitted with a stirrer bar and a stopper , 1 eq of copolymer ( pga and eg ( 2 ) n 3 , eg ( 6 ) n 3 or propagylamine in each case ) sodium salt was dissolved in milliq water . after that , the corresponding amount for the desired % of substitution of clickable agent was added in dry dmf solution . then , five equivalents of sodium ascorbate in milliq water solution were added ( mw = 198 . 11 g / mol ). after that , the mixture was degassed by performing two freeze - pump - thaw cycles . afterwards , one equivalente of cuso 4 ( mw : 249 . 68 g / mol ) was weighted under n 2 flow and added in h 2 o milliq solution to the reaction mixture . the final complete mixture , containing a proportion dmf / h 2 o of 4 : 1 , was degassed by performing another freeze - pump - thaw cycle and left to react at 40 ° c . in an oil bath from 3 days protected from the light . x represents number of glutamic units modified with ethylenglycol , from 1 to 1000 the optimal conditions in aqueous solutions are : the use of cuso 4 / naascorbate ( 1 / 5 ) as catalyst system at 40 ° c . leading to a linking efficiency of 96 - 97 %. the use of cubr / pmdta ( 1 : 1 ) in dmf mixtures does not work either at room temperature or 40 ° c . probably an additional use of sodium ascorbate to prevent the oxidation of cu ( i ) could be determined as the solution . by the way , the use of dmf / h 2 o mixtures ( 4 : 1 ) with cuso 4 / naascorbate ( 1 / 5 ) also allows the possibility of the conjugation of hydrophobic peptides / drugs . the linking efficiency is always less when dmf / h 2 o mixtures are used , but acceptable and more or less predictable . gadolinium / galium complexes like gd - dtpa , ga - dota or their derivatives are usually exploited as magnetic resonance imaging ( mri ) contrast agents and positron emission tomography ( pet ), respectively . the percentage of gd or ga introduced directly depends on the number of glutamic units of the peptide block . aiming at complexing gd and ga complexing units , such as , dtpa - dianhydride ( diethylenetriaminepenta - acetic acid dianhydride ) or dota ( 1 , 4 , 7 , 10 - tetraazacyclododecane - 1 , 4 , 7 , 10 - tetraacetic acid ) are required . carboxylic groups of pga are functionalized with a monoprotected diamine , with the objective of having a free nh 2 ( after deprotection ) which will react with dtpa - dianhydride or dota through an amide bound . monoprotected diamine avoids crosslinking processes . taking into account that the number of carboxylic groups can be varied , percentage of complexed gd or ga can be customized . the coupling of the diamine to the carboxylic groups of the tri - block , followed by coupling of the chelanting agent dtpa / dota for final complexation to gd / ga , was performed following the protocol described bellow , obtaining variable diamine loading . first of all , as the tb is obtained in its sodium salt form it has to be acidified to become soluble in dmf . acidification is carried out by dissolving the polymer in the minimum volume of water and hcl 6n is dropwise added while ph is controlled . at ph around 4 , precipitation is observed . after centrifugation , pellet and supernatant are freeze - dried . detailed analysis of conjugation is exposed bellow . r1 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000 g / mol ). r2 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halides , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000 g / mol ), peg - thiol , peg - 4tp . r3 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from n = 2 to n = 16 ); amino acids such as lysine , arginine , imidazole , histidine and cysteine , and secondary and tertiary amino groups . x represents number of monomer units into definition r1 , from 1 to 500 y represents number of glutamic units modified with r3 in the polymer , from 1 to 500 z represents number of glutamic units not modified in the polymer , from 1 to 1000 p represents number of monomer units included into r3 definition , from 1 to 500 tb200 ( 34 . 5 mg ; 31044 g / ml , 1 . 11 10 − 6 mol ) is dissolved in 5 ml of anhydrous dmf , at rt under n 2 . after dissolution , 1 . 5 ( per 200 residues of ga ) eq of dic were added and , after 5 min , 1 . 5 ( per 200 residues of ga ) eq of hobt . after 10 min stirring , the protected fmoc - diamine was added in the reaction ( 59 mg ; 362 . 85 g / ml ; 1 . 62 10 − 4 mol ; 200 eq ). the ph was adjusted to 8 with 300 μl of diea and the reaction carried out for 24 h and followed by tlc . dmf was evaporated under vacuum and non - reacted fmoc - diamine was removed washing with 8 - 10ml chcl 3 : acetone ( 4 : 1 ) and non - reacted fmoc - diamine present in the organic solvents was quantified with absorbance analysis at 290 nm . the net step is to deprotect the fmoc - diamine linked to the polymer . deprotection was performed with dmf : piperidine ( 4 : 1 ) at rt , under n 2 for 1 h . the free fmoc are removed again by washing the product in chci 3 : acetone ( 4 : 1 ). then , the supernatant was dried and re - suspended in meoh for analysis at 290 nm ( in order to quantify the fmoc groups ) while the pellet was dried under n 2 for following reaction steps . with the spectrophotometric analysis , percentage of diamine coupling was checked 1 . 1 absorbance assays have varied every time that this synthesis has been carried out . for gd 3 + chelation , the ratio 1 eq dtpa : 1 eq gdcl 3 was considered , and a dtpa conjugation efficiency of 50 % was supposed . the freeze - dried tb was resuspended in an appropriate volume of water ( in order to achieve a final concentration of pbs 1 ×), while gdcl 3 ( 263 . 61 g / mol , 1 . 14 10 − 4 mol ) in water ( concentration = 100 mg / ml solution ) was added dropwise to the aqueous solution of tb - dtpa . during this step , the ph must be monitored and constantly adjusted to 8 adding naoh . the presence of trace amounts of non - chelated gd 3 + ions in the mixture was monitored with a gd 3 + indicator , 4 -( 2 - pyridylazo ) resorcinol , that change colour from yellow to orange in presence of non - chelated gd 3 + . after 4 . 5 h of reaction , no free gd 3 + was detected and the reaction stopped by freeze - drying the water . the product was further purified by gel filtration on a pd - 10 column for desalting . it is planned to determine gd 3 + amount in the compound by atomic absorption . yield = 50 % the same procedure , with appropriate quantities , was carried out also with a sample of tb800 in order to have the possibility of enhancing gd 3 + amount into the carrier . x represents number of monomer unit included into r1 definition , from 1 to 500 y represents number glutamic units modified with group r3 in the polymer , from 1 to 1000 z represents number glutamic units without modification in the polymer , from 1 to 1000 q represents number glutamic units modified with dtpa in the polymer , from 1 to 1000 p represents number of monomer units included into r2 definition , from 1 to 500 n cal represents number of theoretical monomer units in the polymer , from 1 to 1000 in the case dota - ga , after obtaining the soluble form of the polyglutamate in dmf ( previously precipitated by acid - base addition up to ph = 4 ), conjugation is performed to obtain the following pga - dota family of derivates that are detailed bellow . r1 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000 g / mol ). r2 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from 100 to 20000 g / mol ), peg - thiol , peg - 4tp . r3 represents an alkyl group with defined c - terminal attachment group ( alkyne , azyde , thiols , halydes , activated thiols , alkenes , activated esters , activated alcohols , protected amines , maleimide groups , acetals , activated carboxylic acids ), ethylenglicol ( eg ) of different molecular weights including polyethylenglicol ( peg , from n = 2 to n = 16 ); amino acids such as lysine , arginine , imidazole , histidine and cysteine , and secondary and tertiary amino groups . x represents number of monomer units into definition r1 , from 1 to 500 y represents number of glutamic units modified with r3 in the polymer , from 1 to 500 z represents number of glutamic units not modified in the polymer , from 1 to 1000 p represents number of monomer units included into r3 definition , from 1 to 500 in a round bottom flask , pga ( 1 eq , average mw ga unit = 129 g / mol ) was placed and system was purged under constant nitrogen flow . product was dissolved with 20 ml of anh . dmf . then , 1 . 5 eq of dic ( 0 . 35 mmol , 0 . 836 g / cm 3 , 126 . 20 g / mol ) was added to the reaction and after 5 min , 1 . 5 eq of hobt ( 0 . 35 mmol , 135 . 10 g / mol ) was incorporated as a solid . 10 min later , dota - nh 2 derivate ( tert - butyl 2 , 2 ′, 2 ″-( 10 -( 2 -( 2aminoethylamino )- 2oxoethyl )- 1 , 4 , 7 - tetrazacyclododecane - 1 , 4 , 7 - triacetate )( eq . depending on the derivatization required 0 . 02 - 0 . 1 eq . 614 . 82 / mol ) dissolved in anhydrous dmf was added dropwise to the reaction containing activated polymer . ph adjusted to 8 with diea . after 48 h stirring at rt , solution was concentrated under high vacuum . purification was performed by precipitation of the concentrated solution in an excess of cold acetone . pale yellow precipitate was recovered after centrifugation ( 2600 rpm , 4 ° c ., 10 min ) and dried under vacuum . percentage of dota conjugation was calculated by 1h - nmr analysis ( d2o ) ( between 2 - 10 mol %). alternatively , in a round bottom flask , db200 ( 0 . 7166 mmol , 1 eq , average mw ga unit ( salt form )= 171 . 31g / mol ) were dissolved in 5 ml of ddh 2 o . dmtmm - cl ( 0 . 0717 mmol , 0 . 115 eq , 0 . 836 g / cm 3 , 126 . 20 g / mol ) was added to the reaction and after 10 min , dota - nh 2 ( for 11 . 5 % mol , 0 . 0717 mmol , 0 . 115 eq , 614 . 82 / mol ) previously dissolved in anhydrous dmf ( 1 ml ) was added dropwise to the reaction . ph adjusted to 8 with diea . after 48 h stirring at rt , solution was concentrated under high vacuum . purification was performed by precipitation of the concentrated solution in an excess of cold acetone . a pale yellow precipitate was recovered after centrifugation ( 2600 rpm , 4 ° c ., 10 min ) and dried under vacuum . percentage of dota conjugation was calculated by 1h - nmr analysis ( d 2 o ) ( between 2 - 12 mol %). reaction yields & gt ; 70 %. to avoid crosslinking reactions , carboxyl groups are normally protected , for example ter - butyl . theses carboxyl are deprotected before complexing of 68 ga in a ch 2 cl 2 / tfa ( 3 : 2 , v / v ) mixture strired for 15 at room temperature , or in a mixture of tfa / h 2 o / tis ( 95 : 2 . 5 : 2 . 5 v / v ) for 3 hours at room temperature . conjugate can then be isolated through precipitation in an excess of cold dietilic eter , then washed and dryed under vaccum . quantitative yield . complete depretection ratified by , 1h - nmr the mtt assay measures cell proliferation as well as reduction in cell viability when metabolic events lead to apoptosis or necrosis . it can also be used to assess the rate of survival of a given cell line when it is incubated in the presence of xenobiotics . the reduction of tetrazolium salts is accepted as a reliable way to analyze cell proliferation . the yellow tetrazolium mtt ( 3 -( 4 , 5 - dimethylthiazolyl - 2 )- 2 , 5 - diphenyltetrazolium bromide ) is reduced by metabolically active cells and results in the intracellular formation of purple formazan that can be spectrophotometrically measured after solubilization with dmso . the mtt assay was used in this invention to assess the toxicity of compounds at different concentrations . to analyze their potential impairment in cell viability , compounds were added to hela and huvec cell lines at different concentrations and incubated up to 72 h . results are shown in fig9 a and 9b where it can be observed that for the compounds tb400 [ p : 35 wherein x = ome or s - s - 4tp ] and tb800 [ p : 36 wherein x = ome or s — s - 4tp ] cell viability is over 80 % following 24 or 72 hours of incubation with huvec cells . fig9 b shows a comparation study where cell viability of the compound tb200 [ p : 34 wherein x = ome or s — s - 4tp ] is measured in different cell lines ( huvec and hela ) at various incubation times . synthesized polymers have been studied comparing different molecular weights and conformation in hela and huvec cells . flow cytometry ( fig2 a ) and live - cell confocal fluorescence microscopy ( fig2 ab ) have been used with polymers labelled with oregon green ( og - cadaverine ). synthesized polymer with — cooh deprotected groups ( p — cooh , 1 equiv .) are dissolved in anhydrous dmf under n 2 atmosphere , subsequently the dye ( og — nh2 0 . 1 equiv .) is added in anhydrous dmf together with triethylamine ( up to ph = 8 ). the reaction is monitored by tlc , and once terminated the polymer is purified by sec ( pd10 columns , sephadex ) and the fluorescent loading is determined with the fluorimeter ( fluorecence quantification of crude and purified polymer ). tb10 was found out of the detection limit of the system , therefore tb - og50 , tb - og100 and tb - og200 were analyzed . internaliztion studies were carried out in the presence of leupeptine ( thiol protease inhibitor ) to avoid degradation of the polymer carrier . in hela cells , whilst tb50 and tb100 showed a lineal increase in the associated cell fluorescence , tb200 shows a quicker internalization reaching stability before 5 hours . on top of this , at 4 ° c ., tb200 presents and increased associated fluorescence at early timepoints , more precisely at 30 minutes pointing out the possible presence of combination of cellular internalization mechanisms ( according to energy - dependent ( i . e . endocytosis )+ independent mechanisms ( i . e . diffusion )). this observation is confirmed by the graphs and confocal microscopy images shown in fig1 a and 10b . this mixed internalization mechanism is not observed in huvec cells for any of the analyzed polymers ( fig1 a and 11b ). huvec cells internalize tb through endocytosis ( lysosomal colocalization fig1 b ) and internalization capacity is also much higher that the observed for hela cells for the same compounds ( compare fig1 a and 11a ). all assays were performed using the same og equivalents . images obtained with lipidic membrane marker also demonstrate that polymers do not associate to plasma membrane and are almost quantitatively internalized ( fig1 b ). degradation studies in a buffer at different ph values , in plasma and in presence of catepsin b to study hydrolitic and enzymatic biodegradability of the new synthesized polymers different stability studies were performed as detailed bellow . all of the samples taken were analysed by hplc and gpc polymers were disolved in pbs buffer ph 5 . 5 , 6 . 5 and 7 . 5 at a concentration of 3 mg / ml . solutions were incubated at 37 ° c ., and 100 □ l samples were taken at different times , then frozen for its future analysis . to obtain blood plasma , fresh blood from rat / mouse was centrifuged at 12000 rpm during 10 minutes at 4 ° c . supernatant ( plasma ) was separated from pellet ( cells ) and used to dissolve polymers at a final concentration of 3 mg / ml . solutions were incubated at 37 ° c . and 100 □ l samples were taken at different times , then frozen for its future analysis . polymers were dissolved in sodium acetate buffer 20 mm ph 6 . 0 at a concentration of 3 mg / ml in the presence of edta 2 mm , dtt 5 mm and 6 . 25 units of catepsin b ( dissolved in acetate buffer ). solutions were incubated at 37 ° c . and 100 □ l samples were taken at different times , then frozen for its future analysis . animal studies were performed according to local legislation and only after approval of the ethical comitee of animal wellbeing of cipf , and according to the european legislation in place . animals were kept respecting their wake - sleep cycles of 12 h and controlling temperature and humidity environment conditions , food and water was also provided . biodistribution studies with fluorescence labelling . using oregon green ( og ) as a probe for biodistribution investigation , ex vivo studies are being carried out analysing accumulation of fluorescent tri - block in different rat organs by hplc and spectrofluorometer device . a rat was injected with 14 mg / ml of tb200 labelled with oregon green and sacrificed after 4 h ( experiment called tbo - 4h ); a second rat was injected with the same quantity but sacrificed after 24 h ( experiment tbo - 24h ). as a control experiment , a rat was injected with 14 mg / ml of tb200 not labelled and it was sacrificed after 4 h ( experiment tb - 4h ). immediately after scarification , the blood was collected and organs removed , weighted , frozen in liquid nitrogen and stored at − 80 ° c . for following analysis . the tissues under investigation are brain , cerebellum , hearth , spleen , liver , bladder , stomach , gut , muscle and fat . each organ was treated with a solution of hclo 4 6 %/ etoh 40 % ( 4 ml per each gram of tissue ) and homogenized . also serum was treated with the same protocol : blood vials were centrifuged in order to remove serum ( supernatant ); the same volume collected was added of the perchloric acid solution . the suspension was centrifuged for 60 min at 4000 g at 4 ° c ., the supernatant stored for analysis and the pellet freeze - dried . in order to improve the extraction of the polymer , pellets were sonicated for 1 h in 1 ml of nahco 3 1m / 2 ml of h 2 o , centrifuged at the same condition and the supernatant stored for further analysis . as it was found that oregon green is ph sensitive ( the fluorescence is inhibited acidic ph ), the hclo 4 supernatant were neutralized with naoh , freeze dried and resuspended in 1 ml of pbs at ph 8 for further analysis . the serum of the animals was separated from the collected blood by centrifugation and mixed to an equal volume of hclo 4 6 %/ etoh 40 %. all the samples ( hclo 4 supernactant , basified supernatant , nahco 3 supernatant ) have been analysed ( or are ongoing ) both with a spectrofluorometer and with hplc . some preliminary results are summarized below . conclusions should be analyzed deeply together with the hplc fluorescence chromatograms ( data not shown ). serum fluorescence was checked in the spectrofluorometer : directly ( blue bar ), after supernatant after hclo 4 solution addition ( violet ), after washing with meoh the pellet of the latest treatment ( yellow ) and after acn washed of the pellet ( light blue . it is observed that serum fluorescence is lost after hclo 4 treatment . this conclusion makes possible that the tbo precipitates with the other proteins ( maybe is forming aggregates with the plasmatic proteins ). due to this fact , nahco 3 washed of the pellet has been performed in the tissues , in order to obtain the sodium salt of the tri - block and solubilise it to the aqueous phase for its subsequent fluorescence measuring . the serum followed a similar treatment : after blood centrifugation , the supernactant was collected and same volume of the perchloric acid solution added dropwise . after sample centrifugation ( 10 min , 12000 rpm , 4 ° c .) the supernactant was collected for further analysis . for biodistribution studies in vivo of the homopolypeptides di - and tri - blocks the different organs ( wistar rats ) were analysed by high pressured liquid chromatography ( hplc ) and fluorimetry . as a preliminary example of the present invention , the experiment that took place with tb200 labelled with og is detailed bellow . rat intravenous injection of 14 mg / ml tb200 labelled with og . rat was sacrified 4 h after injection ( experiment name tbo - 4 h ); a second rat was injected following the same procedure and sacrified 24 h later ( tbo - 24 h ). as a control , a rat was intravenously injected with 14 mg / ml of tb200 without labelled and sacrified 4 hours later ( tb - 4h ). immediately after sacrifice , blood was collected , organs were weight and frozen in liquid nitrogen and stored at − 80 ° c . analyzed organs included brain , cerebellum , heart , liver , kidney , bladder , stomach , intestine and muscle . each of them treated with a lysis solution consistent on 40 % etoh / 6 % hclo 4 ( 4 ml per tissue gram ). sample was homogenated with ultraturrax ( aprox . 1 min , 13000 rpm ). suspension was centrifuged for 60 min at 4000 g and 4 ° c ., and supernatant was collected for analysis . serum followed a similar procedure ; after blood centrifugation , supernatant was collected and an equal dissolution volume was added of percloric acid . after centrifugation of the sample ( 10 min , 12000 rpm , 4 ° c . ), supernactant was collected for analysis . to increase the extraction of the polymer from the mixture , the obtained pellets underwent ultrasound for 1 h after adding 2 ml ddh 2 o and 1 ml of a 1m nahco 3 solution . after centrifugation samples with the previously mentioned conditions and the supernactant was kept for analysis . after observing that the sensibility of og at the ph of the solution ( fluorescence decreases considerably at acid ph ), after treatment with perclhoric acid supernactants were treated with naoh , liophilised and redissolved in 1 ml pbs ph = 8 for future analysis . all samples , tissues and serums , ( supernactants of the treatments with the perchloric mixtures , basified supernatants of perchloric mixtures and supernactants of the treatment with co 3 hna were studied by hplc and fluorescent espectrophotometer . preliminary results of the analysis are shown in fig1 a and 12b . plasma fluorescence ( fig1 a ) was quantified with a spectrofluorometer : directly after treatment with perchloric mixture , after washing with methanol of the pellet obtained in the previous treatment and after the wash with acetronile of the same pellet . in the graphs shown in fig1 we can observe that the starting fluorescence seen in plasma was gradually lost after treatment with perchloric mixture . in spite of this conclusion the possibilily of finding precipitates of tbo together with other proteins present in the plasma exists ( it could be that this polymeric specie could form aggregates with other plasmatic proteins ). as a consequence , pellet was washed with a solution of sodium bicarbonate as previously described for tissues , with the aim of obtaining sodium salts of the triblock and solubilize it in the aquous phases for its subsequent analysis through fluorescent measurements . biodistribution studies with fluorescent labelling . use of cyane5 . 5 ( cy5 . 5 ) as a probe in a parallel study to the previously described , polymer labelling took place using a fluorescence probe with near infrared emission and high penetrability in tissue , cyane5 . 5 ( cy5 . 5 , λexc . 675 nm , λem 694 nm ). the in vivo study took place in mice without thymus nude fox1n nu / nu . following intravenous injection of polymeric compounds labeled with cy5 . 5 , fluorescence images were taken in vivo and subsequently ex vivo ( of extracted organs ) by using the optical imaging platform xenogen ivis ® spectrum . this system allows visualization , follow - up and quantification of genetic and cellular activities inside a living organism at real time , through bioluminescence or fluorescence , as well as ex vivo organs and in vitro assays . in this study we used the methodology described before for the labelling with og . as a preliminary example of the present invention , an assay with db100 labelled with cy5 . 5 that was performed is described in detail bellow . the sole exception is that the sensibility of cy5 . 5 to ph was not the same than in og , and therefore washing of the pellets with nahco 3 1m was not necessary as they did not supply additional information . an example of the images obtained is shown in fig1 . imaging through magnetic resonance is a non - invasive non - ionizing technique that uses the phenomenon of magnetic resonance to obtain information regarding structure and composition of the subject analyzed . it &# 39 ; s a unique tool for contrast amongst tissues , and is able to distinguish between sane and unhealthy tissues . the use of constrast agents in mri is justified when it is not possible to modify the inherent tissue contrast to obtain a higher resolution of images . these agents are based in the changes in the longitudinal ( t1 ) and transversal ( t2 ) relaxing times of the water protons and / or in the magnetic susceptibility of water in the tissues where it accumulates . an mri contrast agent is divided into two components : metallic ion with magnetic properties , free form is toxic for the organism , and a chelate that on top of preventing toxicity of the free ion , allows adjustment pharmacokinetics of the product according to interests . in the present invention gadolinium metal ( gd ) has been used as a contrast agent due to its paramagnetic properties , which increase relaxing time of t1 protons of the water . for in vivo mri , the hydrogen nuclei has been selected as the best target as it is the one to produce the highest mri signal relative to all the nuclei present in all the tissues , and the best contrast amongst the tissues as it provides several ways to manipulate contrast in final image . preliminary studies in vivo using this technology were performed to determine the biodistribution of the new polymers through an alternative methodology than that provided by fluourescence described in this document , as well as to compare which of them provides the best characteristics for its future conjugation to the drug . tb200 - dtpa and tb800 - dtpa triblocks labelled with gd were intravenously injected into rats , at a dose of 0 . 2 mmol gd 3 + per kg of animal and monitored by mri . the experiments were performed in a bruker pharmascan ( bruker medical gmbh r , ettlingen , germany ) system . the contrast agent was administered through the tail vein as a bolus 9 minutes after starting of the adquisition . results of the experiments previously described allowed detection of the conjugates in circulation without observing specific accumulation in any tissue , as for example brain ( see fig1 ). no toxicity effects were observed . both products did not result toxic in the animals demonstrating biocompatibility . positron emission tomography ( pet ) is a technique used to quantitatively determine the in vivo concentration of positron emiting labelled compounds . the quantity measured by pet corresponds to in vivo regional concentration of emiting positrons that can also allow metabolic study . in the present invention galium metal was used ( 68 ga ) as a radioisotope due to its half - 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