Patent Publication Number: US-5254548-A

Title: Compounds having an aryltriazine structure

Description:
The invention relates to new compounds having an aryltriazine structure. 
     Compounds having an aryltriazine structure are known from the literature, especially 1,2,4-aryltriazine-6-ones which have been mentioned as herbicides, and aryltriazolo[3,4-f][1,2,4]triazines the pharmacological activities of which have not been researched. The Applicant has now discovered new aryltriazine compounds that, very interestingly, possess analgesic properties and acetylcholine esterase-inhibiting properties, as well as significant affinities for certain central receptors, and in this capacity they can usefully be used in human medicine. The closest prior art to the compounds of the invention is presented by the following documents: Heterocycles, (1989), 29 (12), 2279-2285; U.S. Pat. No. 4,362,550; Chem. Abstracts 105: 172410; EP 169 139. 
     The invention relates more specifically to compounds having an aryltriazine structure corresponding to the general formula I: ##STR2## in which: 
     Ar represents an optionally substituted aryl or heteroaryl radical, 
     R 5  represents a hydrogen atom, an alkyl, cycloalkyl, or cycloalkylalkyl radical, or an aryl, aralkyl, heteroaryl, or heteroaralkyl radical each of which is optionally substituted in the aromatic or hetero-aromatic ring, and 
     either: 
     R 6  and R 6  &#39; together with the carbon atom carrying them represent a C═O function, and 
     R 1  represents a chain ##STR3## in which: 
     n represents 2, 3, or 4, 
     R 2  and R 3 , which are the same or different, each represents a hydrogen atom or an alkyl radical or, together with the nitrogen atom carrying them, a heterocycle selected from morpholine, pyrrolidine, piperidine, perhydroazepine, and piperazine optionally substituted at the other nitrogen atom by an alkyl chain or by an optionally substituted phenyl radical, 
     or: 
     R 1  and R 6  together form a bond, and 
     R 6  &#39; represents a radical of the formula: ##STR4## in which 
     R 7  represents a hydrogen atom or an alkyl radical, 
     and R 8  represents a group of the formula: ##STR5## in which 
     q represents an integer of from 1 to 3, 
     q&#39; represents 0 or 1, 
     R 9 , R 10 , and R 11  each represents, independently of the others, a hydrogen atom, or an alkyl radical, 
     or R 9  and R 10  together with the nitrogen atom carrying them form a mono- or bi-cyclic heterocycle having from 5 to 10 apices that is saturated or contains a double bond and optionally includes in its skeleton an additional hetero atom selected from nitrogen, oxygen, and sulphur, it being understood that, when R 9  and R 10  together form a heterocycle containing a second nitrogen atom, that nitrogen atom may itself be substituted by an optionally substituted alkyl, aryl, or heteroaryl radical, or by a chain of the formula ##STR6## in which p represents 1, 2, or 3, p&#39; represents 0 or 1, and R 12  represents an optionally substituted aryl or heteroaryl radical, 
     or R 9  and R 11  together with the nitrogen and carbon atoms carrying them form a heterocycle having from 5 to 7 apices that optionally includes in its skeleton an additional hetero atom selected from nitrogen, oxygen, and sulphur, 
     or R 7  and R 8  together with the nitrogen atom carrying them form a piperazine substituted at the other nitrogen atom by an alkyl radical, by 
     an optionally substituted phenyl radical, or by a chain of the formula ##STR7## in which p and R 12  are as defined above, or: 
     R 1 , R 6 , and R 6  &#39;, together with the triazine nucleus carrying them, form a [1,2,4-triazolo][3,4-f][1,2,4]-triazine system, the triazole nucleus being substituted at the 3 position by an R 13  group selected from an alkyl radical, and an aryl, heteroaryl, aralkyl, and heteroaralkyl radical each of which is optionally substituted in the aromatic or heteroaromatic ring, their possible optical isomers, isolated or in the form of a mixture, as well as, where applicable, their addition salts with a pharmaceutically acceptable acid, it being understood that : 
     the term &#34;substituted&#34; indicates that the groups it governs may be substituted by one or more identical or different radicals selected from halogen, hydroxy, nitro, amino, trifluoromethyl, alkyl, and alkoxy, and/or may carry at two adjacent carbon atoms an --O--(CH 2 ) r  --O-- group in which r represents an integer of from 1 to 3, 
     unless indicated otherwise, the terms &#34;alkyl&#34; and &#34;alkoxy&#34; indicate groups containing from 1 to 6 carbon atoms in a straight or branched chain, and the term &#34;cycloalkyl&#34; denotes a saturated cyclic group containing from 3 to 7 carbon atoms, 
     the term &#34;aryl&#34; indicates a phenyl or naphthyl group, and the term &#34;heteroaryl&#34; denotes a mono- or bi-cyclic aromatic group having from 5 to 10 apices that includes in its carbon skeleton from 1 to 3 hetero atoms selected from nitrogen, oxygen and sulphur. 
     A process for the preparation of the compounds of formula I is described wherein an α-amino acid of formula II ##STR8## in which R 5  has the same meaning as in formula I, is condensed in alkaline medium with an acid halide of the formula Ar - COX, in which Ar has the same meaning as in formula I and X represents a halogen atom, to yield a compound of formula III ##STR9## in which Ar and R 5  have the meanings given above, which is then: 
     a) either esterified in acidic medium with a lower alcohol of the formula R&#39;--OH in which R&#39; represents a lower alkyl radical, to yield a compound of formula IVa ##STR10## in which Ar, R 5 , and R&#39; have the meanings given above, which is subjected in anhydrous medium to the action of a thionating reagent, such as phosphorus pentasulphide or Lawesson&#39;s reagent, followed by acidification of acid-base extraction, to yield a compound of formula Va ##STR11## in which Ar, R 5 , and R&#39; have the meanings given above, 
     or subjected to the action of a trialkyloxonium tetrafluoroborate, in an anhydrous solvent, to yield a compound of formula Vb ##STR12## in which Ar, R 5 , and R&#39; have the meanings given above and R&#34; represents an alkyl group. 
     the compound of formula Va or Vb then being cyclised by the action of hydrazine at elevated temperature in an aprotic solvent to form a compound of formula VI ##STR13## in which Ar and R 5  have the meanings given above, which is then dehydrogenated, either by dehydrohalogenation or by the action of an oxidising reagent, such as, for example, potassium permanganate, manganese dioxide, sodium meta-nitrobenzenesulphonate, or sodium perchlorate, to form a compound of formula VII ##STR14## in which Ar and R 5  have the meanings given above, which is then: 
     either treated in succession with an alkali metal alcoholate and then an aminoalkyl halide of formula VIII ##STR15## in which n, R 2 , and R 3  have the same meaning as in formula I and X represents a halogen atom, to yield a compound of formula Ia ##STR16## a particular case of compounds of formula I, 
     or subjected to the action of a polyhalogenated phosphorus compound to yield a compound of formula IX ##STR17## in which Ar, R 5 , and X have the meanings given above, which is 
     either condensed with an amine of formula X ##STR18## in which R 7  and R 8  have the same meaning as in formula I, to yield a compound of formula Ib ##STR19## a particular case of compounds of formula I, 
     or alternatively condensed with a hydrazide of formula 
     
         R.sub.13 --CO--NH--NH.sub.2                                (XI) 
    
     in which R 13  has the same meaning as in formula I, to yield a compound of formula Ic ##STR20## a particular case of compounds of formula I, 
     it being possible, if desired, for the compound Ia, Ib, and Ic, which form the totality of the compounds of formula I, to be converted into salts by the addition of a pharmaceutically acceptable acid and, where applicable, separated into their optical isomers, 
     b) or, optionally, when R 5  represents a hydrogen atom, condensed in acetic anhydride, in the presence of an alkali metal acetate, with an aromatic aldehyde of formula Ar 1  -CHO, in which Ar 1  represents an optionally substituted aryl or heteroaryl radical, to yield a compound of formula Vc ##STR21## in which Ar and Ar 1  have the meanings given above, 
     which is subjected to the action of hydrazine to obtain a compound of formula Vd ##STR22## in which Ar and Ar 1  have the meanings given above, which is heated in an alkaline medium to yield a compound of formula VIIa ##STR23## a particular case of compounds of formula VII in which R 5  represents an optionally substituted arylmethyl or heteroarylmethyl radical, 
     which is subjected to the same operations as the compounds of the general formula VII to obtain, respectively, the compounds of formula Ia&#39;, Ib&#39;, and Ic&#39; ##STR24## particular cases of compounds of formula Ia, Ib and Ic, which, if desired, are converted into salts by the addition of a pharmaceutically acceptable acid and, where applicable, separated into their optical isomers. 
     The compounds of formula I have valuable pharmacological properties. 
     In vitro binding tests have shown that the compounds have a good affinity for A 1 , A 2 , M 1 , and sigma receptors. Moreover, they exhibit a pronounced acetylcholine esterase-inhibiting activity. 
     Tests carried out in vivo show that the substances are non-toxic at the doses tested and also have an analgesic activity. 
     The compounds of the invention can therefore be used for the treatment of pain, cognitive disorders that may or may not be associated with ageing, depression, anxiety and psychoses, sleeping disorders, epilepsy, arterial hypertension, cardiac insufficiency or cardiac arrhythmia, cardiac or cerebral ischaemia, blood hypercoagulability and thromboses, asthma, renal deficiency and, generally, disorders associated with A 1 , A 2 , or sigma receptor dysfunction, or with cholinergic system dysfunction. 
     The present invention also relates to pharmaceutical compositions comprising as active ingredient at least one compound of the general formula (I) or an addition salt thereof with a pharmaceutically acceptable acid, alone or in combination with one or more excipients or vehicles. 
     Among the pharmaceutical compositions according to the invention there may be mentioned more especially those suitable for oral, parenteral, or nasal administration, tablets, dragees, sublingual tablets, sachets, paquets, capsules, glossettes, lozenges, suppositories, creams, ointments, dermal gels, injectable solutions, etc. 
     The dosage used varies in accordance with the age and weight of the patient, the nature and severity of the disorder and the administration route, which may be oral, nasal, rectal, intramuscular, or parenteral. 
     Generally, the unit dosage ranges from 1 to 500 mg for a treatment 1 to 3 times per 24 hours. 
     The following Examples illustrate the invention but do not limit it in any way. 
     The starting materials are described in the literature or may be prepared in an identical manner. 
    
    
     EXAMPLE 1: 1-MORPHOLINOETHYL-5-ISOPROPYL-3-PHENYL-1,2,4-TRIAZIN-6-ONE 
     Step A: N-Benzoylvaline 
     Dissolve 0.1 mol (11.7 g) of valine in 50 ml of water, add 0.25 mol of sodium hydroxide in aqueous solution, heat to 30° C. and then add dropwise 0.15 mol (17.5 ml) of benzoyl chloride. Wash the aqueous solution with ether, acidify and suction off the N-benzoylvaline crystals. 
     Melting point: 125° C. 
     Yield: 95% 
     Step B: Ethyl N-Benzoylvalinate 
     Dissolve in 100 ml of ethanol 0.045 mol (10 g) of N-benzoylvaline obtained in the preceding Step, add 5 ml of concentrated sulphuric acid, then heat at reflux for 24 hours. Evaporate to dryness, take up in ether, wash with water then with a 10% potassium bicarbonate solution, dry, filter and evaporate to dryness. Ethyl N-benzoylvalinate is obtained. 
     Yield: 71% 
     Melting point: 74° C. 
     Stage C: Ethyl N-Thiobenzoylvalinate 
     Heat at reflux for 6 hours a solution of 0.025 mol (6.3 g) of ethyl N-benzoylvalinate obtained in Step B and 5.6 g of phosphorus pentasulphide in 120 ml of pyridine, and evaporate to dryness. Take up the residue in water and ethyl acetate. Wash the organic phase with a 2N hydrochloric acid solution, dry, filter and evaporate to dryness. The ethyl N-thiobenzoylvalinate obtained is purified by chromatography on a column of silica (eluant:ethyl acetate/hexane:25/75). 
     Yield: 45% (yellow oil) 
     Step D: 4,5-dihydro-3-phenyl-5-isopropyl-1,2,4-triazine-6-one 
     Dissolve in 25 ml of xylene 0.01 mol (2.85 g) of ethyl N-thiobenzoylvalinate obtained in Step C. Add 0.02 mol of hydrazine hydrate. Reflux for 12 hours. Suction off the resulting precipitate and wash it with acetone. 
     4,5-dihydro-3-phenyl-5-isopropyl-1,2,4-triazin-6-one is obtained Yield: 61% Melting point: 164° C. 
     Step E: 3-phenyl-5-isopropyl-1,2,4-triazine-6-one 
     Dissolve in 400 ml of acetone 0.01 mol (2.15 g) of the compound obtained in the preceding Step. Add 8 grams of potassium permanganate dissolved in 400 ml of water, and reflux for 4 hours. Filter, evaporate to dryness and recrystallise the 3-phenyl-5-isopropyl-1,2,4-triazin-6-one from methanol. 
     Yield: 50% Melting point: 188° C. 
     Step F: 1-morpholinoethyl-5-isopropyl-3-phenyl-1,2,4-triazin-6-one (Acid Oxalate) 
     Add 5 mmol of sodium ethoxide, then a solution of 4.6 mmol of N-(2-chloroethyl)morpholine hydrochloride and 5 mmol of sodium ethoxide in ethanol to a solution in ethanol of 4.6 mmol (1 gram) of the compound obtained in the preceding Step. Heat at reflux for 6 hours, and filter off the sodium chloride formed. Evaporate the filtrate to dryness, take up in water and extract with ethyl acetate. Concentrate to dryness, and dissolve the residue in isopropanol at elevated temperature Add one equivalent of oxalic acid. The acid oxalate of 1-morpholinoethyl-5-isopropyl-3-phenyl-1,2,4-triazin-6-one precipitates. 
     Yield: 68% 
     Melting point: 210° C. 
     
         ______________________________________                                    
Percentage analysis:                                                      
               C %        H %    N %                                      
______________________________________                                    
calculated     57.40      6.26   13.39                                    
found          57.46      6.33   13.24                                    
______________________________________                                    
 
    
     EXAMPLE 2: 1-MORPHOLINOETHYL-5-ISOPROPYL-3-(2-CHLOROPHENYL)-1,2,4-TRIAZIN-6-ONE 
     By replacing the benzoyl chloride in Step A of Example 1 with 2-chlorobenzoic acid chloride there are obtained in succession, in the same manner: 
     Step A: N-(2-chlorobenzoyl)valine 
     Yield: 78% 
     Melting point: 89° C. 
     Step B: Ethyl N-(2-chlorobenzoyl)valinate 
     Yield: 76% (oil) 
     Step C: Ethyl N-(2-chlorothiobenzoyl)valinate 
     Yield: 50% (yellow oil) 
     Step D: 4,5-Dihydro-3-(2-chlorophenyl)-5-isopropyl-1,2,4-triazin-6-one 
     Yield: 66% 
     Melting point: 98° C. 
     Step E: 3-(2-chlorophenyl)-5-isopropyl-1,2,4-triazin-6-one 
     Yield: 56% 
     Melting point: 118.5° C. 
     Step F: 1-morpholinoethyl-3-(2-chlorophenyl)-5-isopropyl-1,2,4-triazin-6-one in acid oxalate form 
     Yield: 50% 
     Melting point: 188° C. 
     
         ______________________________________                                    
Percentage analysis:                                                      
               C %        H %    N %                                      
______________________________________                                    
calculated     53.03      5.56   12.37                                    
found          52.97      5.64   12.27                                    
______________________________________                                    
 
    
     EXAMPLE 3: 1-(3-MORPHOLINOPROPYL)-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the 2-chloroethylmorpholine in Step F of Example 2 with N-(3-chloropropyl)morpholine, the product of the Example is obtained in the form of the oxalate. 
     Melting point: 172° C. 
     EXAMPLE 4: 1-PYRROLIDINOETHYL-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the N-(3-chloropropyl)morpholine in the preceding Example with N-(2-chloroethyl)pyrrolidine, the compound of the Example is obtained in the form of the acid oxalate. 
     Melting point: 179° C. 
     EXAMPLES 5 TO 8 
     By proceeding as in the preceding Examples, but using an appropriate haloalkylamine, the following compounds are obtained in the same manner in the form of oxalates: 
     EXAMPLE 5: 1-(4-MORPHOLINOBUTYL)-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 6: 1-[(4-METHYL-1-PIPERAZINYL)ETHYL]-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 7: 1-[[4-(3 -TRIFLUOROMETHYLPHENYL)-1-PIPERAZINYL]ETHYL]-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 8: 1-DIETHYLAMINOETHYL-3-(2-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 9: 1-MORPHOLINOETHYL-3-(3-METHOXYPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the benzoyl chloride in Step A of Example 1 with 3-methoxybenzoic acid chloride and proceeding in the same manner, the product of the Example is obtained in the form of the acid oxalate. 
     Melting point: 117° C. 
     EXAMPLE 10: 1-MORPHOLINOETHYL-3-(4-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the 3-methoxybenzoic acid chloride in the preceding Example with 4-chlorobenzoic acid chloride, the compound of the Example is obtained in the form of the acid oxalate. 
     Melting point: 213° C. 
     EXAMPLE 11: 1-MORPHOLINOETHYL-3-(3-CHLOROPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the 4-chlorobenzoic acid chloride in the preceding Example with 3-chlorobenzoic acid chloride, the compound of the Example is obtained in the form of the acid oxalate. 
     Melting point: 211° C. 
     EXAMPLE 12: 1-MORPHOLINOETHYL-3-PHENYL-5-METHYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the valine in Step A of Example 1 with alanine there are obtained in succession: 
     N-BENZOYLALANINE (melting point: 98.5° C.) 
     ETHYL N-BENZOYLALANINATE (melting point: 70° C.) 
     ETHYL N-THIOBENZOYLALANINATE (melting point: 119° C.) 
     4,5-DIHYDRO-3-PHENYL-5-METHYL-1,2,4-TRIAZIN-6-ONE (melting point: 177° C.) 
     3-PHENYL-5-METHYL-1,2,4-TRIAZIN-6-ONE (melting point: 230° C.) 
     1-MORPHOLINOETHYL-3-PHENYL-5-METHYL-1,2,4-TRIAZIN-6-ONE (melting point: 75°-76° C. in the form of a base) 
     EXAMPLE 13: 1-MORPHOLINOETHYL-3-(3-CHLOROPHENYL)-5-METHYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the benzoyl chloride in the preceding Example with 3-chlorobenzoyl chloride, the product of the Example is obtained in the same manner in the form of the acid oxalate. 
     Melting point: 209° C. 
     EXAMPLE 14 : 1-MORPHOLINOETHYL-3-(4 CHLOROPHENYL)-5-METHYL-1,2,4-TRIAZIN-6-ONE 
     By replacing in Example 1 the benzoyl chloride with 4-chlorobenzoyl chloride and the valine by alanine, there are obtained in succession: 
     Step A: N-(4-chlorobenzoyl)analine 
     Melting point: 178° C. 
     Step B: Ethyl N-(4-chlorobenzoyl)alaninate 
     Melting point: 88° C. 
     Step C: Ethyl N-[(4-chlorobenzoyl)ethoxymethylidene]alaninate 
     Add a solution of 0.1 mol (18.9 g) of triethyloxonium tetrafluoroborate in dichloromethane to a solution in dichloromethane of 0.05 mol (13 g) of ethyl N-(4-chlorobenzoyl)alaninate obtained in the preceding Step. Stir for 12 hours under an inert atmosphere. Wash the organic solution with a solution of potassium carbonate. Dry and evaporate the organic phase. 
     A yellow oil is obtained which is used directly as such in the following Step. 
     Step D: 4,5-dihydro-3-(4-chlorophenyl)-5-methyl-1,2,4-triazine-6-one 
     Add 0.012 mol of hydrazine hydrate to an ethanolic solution of 0.01 mol of the product obtained in the preceding Step. Heat at reflux for 6 hours, evaporate to dryness. Take up in water, suction off, dry and recrystallise from methanol. 
     Melting point: 144° C. 
     Steps E and F: 
     By operating as in Steps E and F of Example 1, using the product obtained in the preceding Step as starting material, there are obtained in the same manner 
     3-(4-CHLOROPHENYL)-5-METHYL-1,2,4-TRIAZIN-6-ONE 
     1-MORPHOLINOETHYL-3-(4-CHLOROPHENYL)-5-METHYL-1,2,4-TRIAZIN-6-ONE 
     melting point: 109.5° C. (base) 
     EXAMPLE 15: 3-(2-CHLOROPHENYL)-5-ISOBUTYL-1-MORPHOLINOETHYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the 4-chlorobenzoyl chloride with 2-chlorobenzoyl chloride and the alanine with leucine in Step A of the preceding Example, there are obtained in succession: 
     N-(2-CHLOROBENZOYL)LEUCINE 
     Melting point: 73° C. 
     ETHYL N-(2-CHLOROBENZOYL)LEUCINATE (oil) 
     ETHYL N-[(2-CHLOROPHENYL)-ETHOXYMETHYLIDENE]LEUCINATE 
     4,5-DIHYDRO-3-(2-CHLOROPHENYL)-5-ISOBUTYL-1,2,4-TRIAZIN-6-ONE 
     Melting point: 113° C. 
     3-(2-CHLOROPHENYL)-5-ISOBUTYL-1,2,4-TRIAZIN-6-ONE (oil) 
     1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-5-ISOBUTYL-1,2,4-TRIAZIN-6-ONE in the form of the acid oxalate 
     Melting point: 175° C. 
     EXAMPLES 16 TO 21 
     By replacing the alanine in Step A of Example 14 with an appropriate amino acid, the following are obtained in the same manner: 
     EXAMPLE 16: 1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-5-ETHYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 17: 1-MORPHOLINOETHYL-2-CHLOROPHENYL)-5-ALLYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 18: 1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-5-(2-THIENYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 19: 1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-5-HEXYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 20: 1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-5-(2-PHENYLETHYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 21: 1-MORPHOLINOETHYL-3-(2-CHLOROPHENYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLES 22 TO 27 
     By replacing the benzoyl chloride in Step A of Example 1 with the appropriate acid chloride, the following are obtained in the same manner: 
     EXAMPLE 22: 1-MORPHOLINOETHYL-3-(1-NAPHTHYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 23: 1-MORPHOLINOETHYL-3-(3-PYRIDYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 24: 1-MORPHOLINOETHYL-3-(2-THIENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 25: 1-MORPHOLINOETHYL-3-(2-FURYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 26: 1-MORPHOLINOETHYL-3-(3,4-METHYLENEDIOXYPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 27: 1-MORPHOLINOETHYL-3-(3,4-ETHYLENEDIOXYPHENYL)-5-ISOPROPYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 28: 1-MORPHOLINOETHYL-3-PHENYL-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     Step A: 2-phenyl-4-benzylidene-5-oxazolinone 
     Suspend 0.46 mol (38 g) of sodium acetate and 0.26 mol (26.4 ml) of benzaldehyde in 100 ml of acetic anhydride, heat to 65° C., add 0.32 mol (59 g) of hippuric acid and then heat at 90° C. for 30 minutes. Add 200 ml of hot water (80° C.) over a period of 10 minutes. Continue stirring for 10 minutes, filter, wash the resulting precipitate with hot water and dry. 
     0.18 mol (45 g) of 2-phenyl-4-benzylidene-5-oxazolinone is obtained. 
     Melting point: 158° C. 
     Step B: 2-phenylcarboxamido-3-phenylacrylic acid hydrazide 
     Suspend 0.08 mol (20 g) of 2-phenyl-4-benzylidene-5-oxazolinone in 125 cm 3  of methanol. Add 0.09 mol (5.8 g) of hydrazine hydrate. Stir for 30 minutes, filter the resulting precipitate and rinse it with ether. 
     0.048 mol (13.5 g) of 2-phenylcarboxamido-3-phenylacrylic acid hydrazide is obtained. 
     Melting point: 136° C. 
     Step C: 3-phenyl-5-benzyl-1,2,4-triazin-6-one 
     Reflux for 10 minutes 0.08 mol (22.5 g) of the compound obtained in the preceding Step dissolved in 150 ml of a molar solution of sodium hydroxide. Filter hot. Acidify the resulting precipitate and recrystallise it from ethanol. 0.048 mol (12.6 g) of 3-phenyl-5-benzyl-1,2,4-triazin-6-one is obtained. 
     Melting point: 183° C. 
     Step D 1-morpholinoethyl-3-phenyl-5-benzyl-1,2,4-triazin-6-one 
     The compound of the Example is obtained by operating as in Step F of Example 1 but replacing the 3-phenyl-5-isopropyl-1,2,4-triazin-6-one with the 3-phenyl-5-benzyl-1,2,4-triazin-6-one obtained in the preceding Step. 
     Melting point: 92° C. (base) 
     The compound of the Example can also be obtained using the process of Example 1, but employing phenylalanine in place of valine. 
     EXAMPLE 29: 1-MORPHOLINOETHYL-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     By replacing the hippuric acid in Step A of Example 28 with N-(3-chlorobenzoyl)glycine, the following are obtained in succession: 
     STEP A: 2-(3-CHLOROPHENYL)-4-BENZYLIDENE-5-OXAZOLINONE 
     Melting point: 134° C. 
     STEP B: 2-[(3-CHLOROPHENYL)CARBOXAMIDO]-3-PHENYLACRYLIC ACID HYDRAZIDE 
     STEP C: 3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     STEP D: 1-MORPHOLINOETHYL-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     Melting point: 183° C. (free base hemihydrate) 
     EXAMPLES 30 TO 35 
     By proceeding as in Example 29, using an appropriately substituted N-aroylglycine, the compounds of the following Examples are obtained: 
     EXAMPLE 30: 1-MORPHOLINOETHYL-3-(4-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     Melting point: 189° C. (acid oxalate) 
     EXAMPLE 31: 1-MORPHOLINOETHYL-3-(3,4-METHYLENEDIOXYPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ON 
     Melting point: 169° C. (acid oxalate) 
     EXAMPLE 32: 1-MORPHOLINOETHYL-3-(4-METHOXYPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     Melting point: 107° C. (base) 
     EXAMPLE 33: 1-MORPHOLINOETHYL-3-(4-METHYLPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     Melting point: 200° C. (acid oxalate) 
     EXAMPLE 34: 1-MORPHOLINOETHYL-3-(1-NAPHTHYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 35: 1-MORPHOLINOETHYL-3-(2-PYRIMIDNYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 36: 1-MORPHOLINOETHYL-3-PHENYL-5-(3-CHLOROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     By replacing the benzaldehyde in Step A of Example 28 with 3-chlorobenzaldehyde, the following are obtained in the same manner: 
     Step A: 2-phenyl-4-(3-chlorobenzylidene)-5-oxazolinone 
     Melting point: 166° C. 
     Step B: 2-phenylcarboxamido-3-(3-chlorophenyl)acrylic acid hydrazine Melting point: 147° C. 
     Step C: 3-phenyl-5-(3-chlorobenzyl)-1,2,4-triazin-6-one 
     Melting point: 150° C. 
     Step D: 1-morpholinoethyl-3-phenyl-5-(3-chlorobenzyl)-1,2,4-triazin-6-one 
     Melting point: 187° C. (acid oxalate) 
     EXAMPLES 37 TO 47 
     The compounds of the following Examples are obtained by proceeding in the same manner as in Example 36 but using an appropriately selected aldehyde. 
     EXAMPLE 37: 1-MORPHOLINOETHYL-3-PHENYL-5-(2-CHLOROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     Melting point: 197° C. (acid oxalate) 
     EXAMPLE 38: 1-MORPHOLINOETHYL-3-PHENYL-5-(4-CHLOROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     Melting point: 216° C. (acid oxalate) 
     EXAMPLE 39: 1-MORPHOLINOETHYL-3-PHENYL-5-(4-METHOXYBENZYL)-1,2,4-TRIAZIN-6-ONE 
     Melting point: 200° C. (acid oxalate) 
     EXAMPLE 40: 1-MORPHOLINOETHYL-3-PHENYL-5-(3-BROMOBENZYL)-1,2,4-TRIAZIN-6-ONE 
     Melting point: 187° C. (acid oxalate) 
     EXAMPLE 41: 1-MORPHOLINOETHYL-3-PHENYL-5-(3,4-METHYLENE-DIOXYPHENYL)-1,2,4-TRIAZIN-6-ONE 
     Melting point: 151° C. (base) 
     EXAMPLE 42: 1-MORPHOLINOETHYL-3-PHENYL-5-[(3-INDOLYL)-METHYL]-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 43: 1-MORPHOLINOETHYL-3-PHENYL-5-[(3-PYRIDINYL)METHYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 44: 1-MORPHOLINOETHYL-3-PHENYL-5-[(2-FURYL)METHYL]-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 45: 1-MORPHOLINOETHYL-3-PHENYL-5-(3-NITROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 46: 1-MORPHOLINOETHYL-3-PHENYL-5-(3-HYDROXYBENZYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 47: 1-MORPHOLINOETHYL-3-PHENYL-5-(4-METHYLBENZYL)-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 48: 1-(3-MORPHOLINOPROPYL)-3-PHENYL-5-(3-CHLOROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     The product of the Example is obtained by replacing the N-(2-chloroethyl)morpholine hydrochloride in Step D of Example 36 with N-(3-chloropropyl)morpholine hydrochloride. 
     Melting point: 164° C. (acid oxalate) 
     EXAMPLE 49: 1-PYRROLIDINOETHYL-3-PHENYL-5-(3-CHLOROBENZYL)-1,2,4-TRIAZIN-6-ONE 
     The product of the Example is obtained by replacing the N-(2-chloroethyl)morpholine hydrochloride in Step D of Example 36 with N-(2-chloroethyl)pyrrolidine hydrochloride. 
     Melting point: 174° C. (acid oxalate, monohydrate) 
     EXAMPLE 50: 1-PYRROLIDINOETHYL-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     The compound of the Example is obtained by replacing the N-(2-chloroethyl)morpholine hydrochloride in Step D of Example 29 with N-(2-chloroethyl)pyrrolidine hydrochloride. 
     Melting point: 188° C. (acid oxalate) 
     EXAMPLES 51 TO 56 
     By operating in the same manner as in the preceding Example, but using an appropriately selected aminoalkyl chloride hydrochloride, the following are obtained: 
     EXAMPLE 51: 1-(4-MORPHOLINOBUTYL)-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 52: 1-DIMETHYLAMINOETHYL-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 53: 1-(N-METHYLPIPERAZINOETHYL)-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 54: 1-(N-PHENYLPIPERAZINOETHYL)-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 55: 1-[(1-PERHYDROAZEPINYL)ETHYL]-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 56: 1-PIPERIDINOETHYL-3-(3-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZIN-6-ONE 
     EXAMPLE 57: 3,8-DIBENZYL-6-PHENYL-[1,2,4-TRIAZOLO][3,4-f][1,2,4]TRIAZINE 
     Step A: 6-chloro-5-benzyl-3-phenyl-1,2,4-triazine 
     Heat a solution of 15 mmol (4 g) of 3-phenyl-5-benzyl-1,2,4-triazin-6-one obtained in Step C of Example 28 in 30 ml of phosphorus oxychloride to a temperature of 80° C. After cooling, pour into iced water, render alkaline and extract with ethyl acetate. Dry the organic phase, filter, evaporate to dryness and purify by chromatography on silica (eluant ethyl acetate/hexane: 27/75) 
     Step B: 3,8-dibenzyl-6-phenyl-[1,2,4-triazolo]-[3,4-f][1,2,4]triazine 
     Heat a solution of 1.77 mmol of the compound obtained in the preceding Step and 1.5 equivalents (0.4 g) of phenylacetic acid hydrazide in 10 ml of butanol for 12 hours. After cooling, filter the precipitate and recrystallise it from ethanol. 
     Melting point: 165° C. 
     EXAMPLES 58 TO 60 
     The compounds of the following Examples are obtained in the same manner as in Example 57 by replacing the phenylacetic acid hydrazide in Step B with the appropriate acid hydrazide: 
     EXAMPLE 58: 3,6-DIPHENYL-8-BENZYL-[1,2,4-TRIAZOLO][3,4-f][1,2,4]TRIAZINE 
     Melting point: 190° C. 
     EXAMPLE 59: 3-METHYL-6-PHENYL-8-BENZYL-[1,2,4-TRIAZOLO][3,4-f][1,2,4]TRIAZINE 
     Melting point: 181° C. 
     EXAMPLE 60: 6-PHENYL -8-BENZYL-[1,2,4-TRIAZOLO][3,4-f][1,2,4]TRIAZINE 
     EXAMPLE 61: 3-PHENYL-5-BENZYL-6-[4-(3-CHLOROPHENYL)-1-PIPERAZINYL]-1,2,4-TRIAZINE 
     Suspend 2 mmol (570 mg) of 6-chloro-5-benzyl-3-phenyl-1,2,4-triazine obtained in Step A of Example 57 in 40 ml of butanol, and add 4 equivalents of 1-(3-chlorophenyl)piperazine. Heat for 12 hours at 120° C., concentrate the solution, take up in ether, filter the resulting precipitate and recrystallise it from ethanol. 
     Melting point: 178° C. 
     EXAMPLE 62: 3-PHENYL-5-BENZYL-6-(4-METHYLPIPERAZINYL)-1,2,4-TRIAZINE 
     The product of the Example is obtained by proceeding as in Example 61, using N-methylpiperazine. 
     EXAMPLE 63: 3-PHENYL-5-BENZYL-6-DIETHYLAMINOETHYLAMINO-1,2,4-TRIAZINE 
     By replacing the 1-(3-chlorophenyl)piperazine in Example 61 with diethylaminoethylamine, the product of the Example is obtained in the same manner, converted into a salt by one equivalent of oxalic acid and recrystallised from isopropanol. 
     Melting point: 168° C. (acid oxalate) 
     EXAMPLES 64 TO 72 
     By proceeding as in Example 63, the following Examples are obtained in the same manner using appropriately substituted 6-chloro-1,2,4-triazines (intermediates in the preparation of the Examples described above) which are condensed with appropriate amines: 
     EXAMPLE 64: 6-[(1-ETHYL-2-PYRROLIDINYL)-METHYLAMINO]-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     Melting point: 111° C. 
     EXAMPLE 65: 6-PIPERIDINOETHYLAMINO-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     Melting point: 132° C. 
     EXAMPLE 66: 6-PIPERIDINOETHYLAMINO-5-BENZYL-3-(4-CHLOROPHENYL)-1,2,4-TRIAZINE 
     Melting point: 196° C. (acid oxalate) 
     EXAMPLE 67: 6-PIPERIDINOETHYLAMINO-5-METHYL-3-PHENYL-1,2,4-TRIAZINE 
     Melting point: 124° C. 
     EXAMPLE 68: 6-PIPERIDINOETHYLAMINO-5-ISOPROPYL-3-(4-CHLOROPHENYL)-1,2,4-TRIAZINE 
     Melting point: 221° C. (acid oxalate) 
     EXAMPLE 69: 6-PIPERIDINOETHYLAMINO-5-METHYL-3-(4-CHLOROPHENYL)-1,2,4-TRIAZINE 
     Melting point: 215° C. (acid oxalate) 
     EXAMPLE 70: 6-PIPERIDINOETHYLAMINO-3-PHENYL-1,2,4-TRIAZINE 
     Melting point: 105° C. (monohydrate) 
     EXAMPLE 71: 6-PIPERIDINOETHYLAMINO-3-PHENYL-5-(4-CHLOROBENZYL)-1,2,4-TRIAZINE 
     Melting point: 192° C. (acid oxalate) 
     EXAMPLE 72: 1-(3-PHENYL-1,2,4-TRIAZIN-6-YL)-4-[3-(4-FLUOROBENZOYL)PROPYL]-PIPERAZINE 
     Melting point: 155° C. (hemihydrate) 
     EXAMPLE 73: 6-[(3-PIPERIDINOPROPYL)AMINO]-3-(4-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZINE 
     EXAMPLE 74: 6-[(4-PIPERIDINOBUTYL)AMINO]-3-(4-CHLOROPHENYL)-5-BENZYL-1,2,4-TRIAZINE 
     EXAMPLE 75: 6-MORPHOLINOETHYLAMINO-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     EXAMPLE 76: 6-[(1,2,5,6-TETRAHYDROPYRID-1-YL)ETHYLAMINO]-5-METHYL-3-PHENYL-1,2,4-TRIAZINE 
     EXAMPLE 77: 6-[(3-AZABICYCLO(3.3.0)OCT-3-YL)ETHYLAMINO]-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     EXAMPLE 78: 6-[(PERHYDROAZEPIN-1-YL)ETHYLAMINO]-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     EXAMPLE 79: 6{[3-(PERHYDROAZEPIN-1-YL)PROPYL]AMINO}-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     EXAMPLE 80: 6-{[4-(3-CHLOROPHENYL)PIPERAZIN-1-YL]ETHYLAMINO}-5-BENZYL-3-PHENYL-1,2,4-TRIAZINE 
     PHARMACOLOGICAL STUDY OF THE COMPOUNDS OF THE INVENTION 
     Example 81: Analgesic Activity Study 
     The activity against pain was studied in mice (20-25 g) in accordance with a protocol derived from the technique described by KOSTER (GAIRIN et al. J. Pharmacol. Exp. Ther. (1988), 245, 955). The mice, divided randomly into groups of 10, received treatment by the intraperitoneal route (excipient for the controls) 30 minutes before the intraperitoneal injection of a 1% acetic acid solution. The number of times the mice writhe between the 5th and the 20th minute after the injection is counted. 
     The percentage activity obtained was evaluated for each dose (% decrease in the number of times the treated mice writhe compared with the controls). 
     It was apparent that the compounds of the invention have a valuable analgesic activity (activity approximately 50% for certain compounds of the invention at 25 mg/kg i.p.). Furthermore, at the doses tested, the products are completely non-toxic. 
     EXAMPLE 82: IN VITRO STUDY OF THE AFFINITY FOR RECEPTORS OF THE CENTRAL NERVOUS SYSTEM 
     The in vitro affinity tests for the mu, delta, kappa, sigma, 5HT 1A , 5HT 2 , M 1 , GABA A , A 1 , and A 2  receptors were carried out according to conventional receptor-binding techniques. 
     The results of these studies show that the compounds of the invention have K 0 .5 values of the order of 10 -6  M with respect to sigma, M1, A 1 , and A 2  receptors. 
     EXAMPLE 83: ACETYLCHOLINE ESTERASE-INHIBITING ACTIVITY 
     The dosage of the acetylcholine esterase is determined according to the colorimetric method of Ellman et al (Biochem. Pharmacol (1961), 7, 88-95). In this test, the compounds of the invention exhibit a very valuable inhibiting activity (IC 50  at 1×10 -7  M). 
     EXAMPLE 84: PHARMACEUTICAL COMPOSITION 
     Tablets each containing 10 mg of 1-morpholinoethyl-3-phenyl-5-isopropyl-1,2,4-triazin-6-one 
     
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FORMULATION FOR 1000 TABLETS:                                             
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1-morpholinoethyl-3-phenyl-5-isopropyl-                                   
                           10 g                                           
1,2,4-triazin-6-one                                                       
wheat starch               15 g                                           
corn starch                15 g                                           
lactose                    65 g                                           
magnesium stearate          2 g                                           
silica                      1 g                                           
hydroxypropylcellulose      2 g                                           
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