Abstract:
Process and immune chemotherapeutic/pharmaceutical composition for treatment of canine and human Leishmaniasis comprising a vaccine containing the FML antigen (Fucose Mannose-Ligand) and saponin adjuvant, used in association with chemotherapeutic agents, showing healing property, leaving the dogs previously infected, in the condition of sterile cure of visceral and tegumentary leishmaniasis, characterized by absence of parasites and the overall absence of  Leishmania  DNA, aiming to stave off the spread of the parasite which causes canine visceral leishmaniasis in dog to the insect transmitter, thus to other dogs and humans. The invention also comprises also the use of the aforementioned composition to produce formulations designed to treat canine visceral leishmaniasis and visceral and murine tegumentary leishmaniasis, human and canine, as well as a kit comprising immune chemotherapeutic agents to treat the same diseases.

Description:
FIELD OF THE INVENTION 
       [0001]    The present invention relates to a process and compositions for treatment of canine and human visceral leishmaniasis comprising immune-therapeutic agents used in combination with conventional chemotherapeutic agents. These immune-chemotherapeutic agents include fractions of promastigotes or amastigotes of  Leishmania  called “Fucose Mannose Ligand” (FML) adjuvanted with saponin, in combination with chemotherapy. The chemotherapeutic agents include antibacterial antibiotics, antiparasitic and/or antifungal and/or antiviral and/or analogues of nucleotides or nucleosides. 
         [0002]    Such processes and compositions may be employed in the preparation of formulations used to treat leishmaniasis in both animals and humans. 
       BACKGROUND OF THE INVENTION 
       [0003]    The visceral human leishmaniasis or “kala-azar” in the Americas and the Mediterranean is a known canine zoonosis. Blood-sucking insects acquire the etiologic agent by feeding themselves from wild canids and subsequently transmitting it to domestic dogs. Transmission to humans by sandflies causes visceral human leishmaniasis, a serious disease that can be fatal if not treated properly. 
         [0004]    Roughly 500,000 new human cases of kala-azar are reported annually worldwide. A protective prophylactic vaccine against human disease is not yet available. The best performance to date has been achieved with an experimental first-generation vaccine that induced 12% protection among people who converted to positive in an intradermal test for the lysate of  Leishmania  (IDR) after vaccination is completed. Thus far, chemotherapy against kala-azar has proved to be highly toxic and not always effective. 
         [0005]      Leishmania  ( L .)  chagasi  and  Leishmania  ( L .)  infantum  are the etiological agents of human visceral leishmaniasis (HVL) in America, in the Mediterranean, Middle East and Asia. It is a severe and often lethal disease if not treated soon after onset of symptoms. In these regions, the disease is a canine zoonosis. The parasites are exposed on the skin of dogs, foxes, and wild dogs, and are transmitted to humans via a transmission cycle involving insects and sandflies. 
         [0006]    Zoonotic Visceral Leishmaniasis (ZVL) is a re-emerging canine zoonosis, whose epidemiological control involves the slaughter of seropositive-infected dogs, treatment of domestic and peridomestic environments with insecticide, and systematic the treatment of human cases. Brazil is one of the four countries where 90% of the human cases occur. As a control method, the slaughter of seropositive dogs is practiced in Brazil and China; however, it is not accepted in Europe. The canine control programs are extremely difficult, costly, and require permanent surveillance and sensitive serological diagnostic methods to be effective. Furthermore, as many seropositive dogs are asymptomatic, the campaign is complicated, although the infectiousness of asymptomatic dogs for vector insects has been demonstrated. 
         [0007]    Treatment of homes with insecticides and preventive vaccination of humans and dogs against visceral leishmaniasis are presently regarded as the best tools provided for control and eradication of the disease and reduce both the human and canine cases. Although several vaccines have been tested under experimental conditions, only some showed efficacy in field tests against the challenge of natural infection, and only Leishmune® vaccine is currently licensed in Brazil, as a prophylactic vaccine against canine visceral leishmaniasis. 
     
    
     DETAILED DESCRIPTION OF THE INVENTION 
       [0008]    The Leishmune® vaccine is comprised of the FML (Fucose Mannose Ligand) antigen from  Leishmania donovani  formulated in 0.5 mg of saponin. The isolation of the FML antigen from  L. donovani  promastigotes (C B Palatnik et al., Infection and Immunity 1989; 57:754-763) and its formulation as a vaccine with saponin of  Quillaja saponaria  Molina is described in Brazilian patent PI1100173-9. 
         [0009]    The vaccine composed of with FML antigen and saponin protected 92-95% of dogs yielding 76-80% of vaccine efficacy in trials carried out in Rio Grande do Norte (da Silva V et al., Vaccine 2001; 19:1082-1092; 2001, and Borja Cabrera G P et al., Vaccine 2002; 20: 3277-3284, 2002). Leishmune® has already demonstrated 99% protection of vaccinated dogs in Sao Paulo and Minas Gerais, while 15.6% of untreated controls were seropositive (Borja Cabrera GP et al., Vaccine 2008 26:4991-4997). In a two-year field trial, up to 1.2% of the vaccinated dogs showed symptoms while 20.6% of dogs exposed controls were symptomatic. Finally, while 1% of the deaths were due to visceral leishmaniasis were detected amongst the vaccinates, a total of 39% of control animals died of CVL during the trial. All differences between vaccinated and controls were significant. These results demonstrate 99%-protection in vaccinated animals with Leishmune®. 
         [0010]    The Leishmune® vaccinated dogs did show skin parasites, have an absence of positive PCR tests on blood and lymph nodes and immunohistochemistry of skin, and thus result in a lessening of infection of vector insects (Nogueira F S et al., Vaccine 2005; 23(40):4805-4810). Also, the antibodies in vaccinated dogs hamper the spread of the disease by inhibiting potential parasites present in the sucked blood from interacting with the intestinal membrane of the insect thus preventing the normal development of its cycle and the future infection of new humans or dogs (Saraiva E et al., Vaccine 2006; 24: 2423-31). Thus, sand flies fed with sera from infected dogs (anti-FML antibodies IgG1 predominant) showed a distinct increase of infection (230.7%), while insects fed with serum from dogs vaccinated with Leishmune® (IgG2 antibodies predominant anti-FML) showed 74.3% reduction of infection. These results indicate that Leishmune® is a Transmission-Blocking Vaccine (TBV), and that the antibodies present in serum from vaccinated dogs, even 12 months after vaccination, assist in stopping the continued spread of the disease. 
         [0011]    Although the current vaccine coverage in Brazil is still low, a clear decline in number of human and canine cases in the localities where vaccinations took place has been noticed while an increase of cases is detected in the regions where vaccination is not being done (Palatnik de Sousa C B et al., 2009; Vaccine 27:3505-3512). 
         [0012]    The possible additive effect of canine vaccination with Leishmune® coupled with the destruction of infected dogs in the reduction of the epidemic was investigated. In Belo Horizonte (BH), rising curves of canine and human incidence were noticed in the counties of Barreiro, Venda Nova and Noroeste, while human and canine incidence of Centro Sul, Leste, Nordeste, Norte, Pampulha and Oeste, showed decline or remained stable after vaccination with Leishmune®. As shown in Table #1, among the counties showing a decline in the percentage of human incidence (−36.5%), Centro Sul and Pampulha showed the highest percentages of dog vaccination (63.27% and 27.27% respectively) and the lowest canine incidences (−3.36%, 1.89%, respectively). 
         [0013]    They were followed by Oeste, which vaccinated 25.30% of the animals and experienced an increase of 12.86% of the canine incidence and by Leste and Nordeste with lower proportions of vaccines (11.72 and 10.76%, respectively) and probably for this reason, slightly higher canine incidences (42.77 and 35.73%). The only exception was found in Norte district, where the drop of human and canine incidence not correlate with the vaccination with Leishmune® (Palatnik de Sousa C B et al., 2009; Vaccine 27:3505-3512). 
         [0014]    Much smaller proportions of dogs were vaccinated in Venda Nova (4.35%), Noroeste (10.27%) and Barreiro (0.09%) districts which, according to that, showed very increased canine incidences (24.48, 21.85 and 328.57%, respectively), and pronounced increases in human incidence (14.4 and 17% respectively). The decrease of canine (p=−0.008) and human incidences (p=−0.048) is directly correlated to the increase of the number of vaccinated dogs, confirming the additive control effect of vaccination with Leishmune® over dog culling, reducing the reservoir of parasites, protecting dogs and, in this way, reducing the risk of transmission of VL to humans and becoming a new effective tool for controlling VL. It was also shown that vaccination with Leishmune® does not interfere in the serological control campaign (110,000 dogs). Only 1.3% positive cases (76 of 5,860) detected among dogs vaccinated with Leishmune® (Palatnik de Sousa C B et al., 2009; Vaccine 27:3505-3512). 
         [0000]    
       
         
               
             
               
               
               
               
               
               
               
               
               
               
             
               
               
               
               
               
               
               
               
               
               
             
           
               
                 TABLE 1 
               
             
             
               
                   
               
               
                 Distribution of canine and human incidence of visceral leishmaniasis and number 
               
               
                 of Leishmune ® vaccinated dogs in Belo Horizonte in the period 2004-2006. 
               
             
          
           
               
                   
                   
                   
                   
                 dog 
                   
                 Cumula- 
                 Cumulative 
                   
                 Δ human 
               
               
                   
                   
                 Total 
                 Positive 
                 inci- 
                 Δ dog 
                 tive L ® 
                 % vaccinated 
                 Human 
                 cases 
               
               
                 Districts 
                 Year 
                 dogs 
                 dogs 
                 dence(%) 
                 incidence 
                 vaccinees 
                 dogs 
                 cases 
                 (%) 
               
               
                   
               
             
          
           
               
                 Centro 
                 2004 
                 5190 
                 201 
                 3.87 
                   
                 1900 
                   
                 5 
                   
               
               
                 Sul 
                 2005 
                 10298 
                 274 
                 2.66 
                   
                 3686 
                   
                 6 
               
               
                   
                 2006 
                 6823 
                 255 
                 3.74 
                 −3.36 
                 4317 
                 63.27 
                 3 
                 −40 
               
               
                 Leste 
                 2004 
                 12337 
                 811 
                 6.57 
                   
                 389 
                   
                 16 
               
               
                   
                 2005 
                 16925 
                 1039 
                 6.14 
                   
                 768 
                   
                 12 
               
               
                   
                 2006 
                 8103 
                 760 
                 9.38 
                 42.77 
                 950 
                 11.72 
                 6 
                 −63 
               
               
                 Nordeste 
                 2004 
                 12151 
                 1044 
                 8.59 
                   
                 374 
                   
                 24 
               
               
                   
                 2005 
                 18684 
                 1544 
                 8.26 
                   
                 851 
                   
                 14 
               
               
                   
                 2006 
                 10792 
                 1258 
                 11.66 
                 35.73 
                 1161 
                 10.76 
                 18 
                 −25 
               
               
                 Norte 
                 2004 
                 11551 
                 1014 
                 8.78 
                   
                 27 
                   
                 22 
               
               
                   
                 2005 
                 20817 
                 2295 
                 11.02 
                   
                 46 
                   
                 20 
               
               
                   
                 2006 
                 12190 
                 1203 
                 9.87 
                 12.41 
                 49 
                 0.40 
                 13 
                 −41 
               
               
                 Pampulha 
                 2004 
                 3899 
                 372 
                 9.54 
                   
                 824 
                   
                 6 
               
               
                   
                 2005 
                 11998 
                 1082 
                 9.02 
                   
                 1741 
                   
                 10 
               
               
                   
                 2006 
                 7993 
                 777 
                 9.72 
                 1.89 
                 2180 
                 27.27 
                 3 
                 −50 
               
               
                 Oeste 
                 2004 
                 6116 
                 456 
                 7.46 
                   
                 652 
                   
                 10 
               
               
                   
                 2005 
                 11799 
                 850 
                 7.20 
                   
                 1338 
                   
                 11 
               
               
                   
                 2006 
                 6484 
                 546 
                 8.42 
                 12.86 
                 1641 
                 25.30 
                 10 
                 0 
               
               
                 Average/ 
                   
                 11027.89 
                 882.83 
                 7.88 
                 17.05 
                 1271.89 
                 23.12 
                 11.94 
                 −36.5 
               
               
                 year 
               
               
                 Barreiro 
                 2004 
                 8783 
                 197 
                 2.24 
                   
                 2 
                   
                 6 
               
               
                   
                 2005 
                 7609 
                 375 
                 4.93 
                   
                 4 
                   
                 6 
               
               
                   
                 2006 
                 6434 
                 617 
                 9.6 
                 328.57 
                 6 
                 0.09 
                 7 
                 17 
               
               
                 Venda 
                 2004 
                 11434 
                 1177 
                 10.29 
                   
                 134 
                   
                 21 
               
               
                 Nova 
                 2005 
                 19378 
                 2263 
                 11.68 
                   
                 259 
                   
                 14 
               
               
                   
                 2006 
                 12072 
                 1547 
                 12.81 
                 24.48 
                 525 
                 4.35 
                 24 
                 14 
               
               
                 Noroeste 
                 2004 
                 9021 
                 760 
                 8.42 
                   
                 375 
                   
                 24 
               
               
                   
                 2005 
                 17127 
                 1516 
                 8.85 
                   
                 1000 
                   
                 17 
               
               
                   
                 2006 
                 11572 
                 1187 
                 10.26 
                 21.85 
                 1188 
                 10.27 
                 25 
                 4 
               
               
                 Average/ 
                   
                 11926.33 
                 1113.56 
                 8.94 
                 124.97 
                 388.11 
                 4.90 
                 16 
                 11.67 
               
               
                 year 
               
               
                 CI95% 
                   
                 5698.73- 
                 215.74- 
                 6.55- 
                 −119.45- 
                 82.35- 
                 −2.18- 
                 4.82- 
                 2.23- 
               
               
                   
                   
                 18153.93 
                 2011.37 
                 11.33 
                 369.39 
                 693.87 
                 11.98 
                 27.18 
                 21.11 
               
               
                   
               
               
                 Legend to Table 1: dog incidence (%): percent of seropositive dogs among the total dogs; Δ dog incidence: variation on percentual of dog incidence in 2006 in relation to 2004; cumulative L ® vaccinees = cumulative number of Leishmune ® vaccinated dogs that receive complete vaccination (3 doses in the first year and one annual booster in the following years) distributed to the veterinarians; Cumulative % of vaccinated dogs: percentual variation of the number of vaccinated dogs in 2006 relative to 2004; Δ human cases: percentual variation of the number of human cases in 2006 in relation to 2004. IC95% = 95% confidence interval. 
               
             
          
         
       
     
         [0015]    Considering that infected dogs are slaughtered and that the vaccine is prophylactic and blocks the transmission of the disease, the increase in saponin adjuvant concentration converts the vaccine into a therapeutic composition, offering a future alternative to the slaughter of dogs. It was indeed found that Leishmune® vaccine formulated with a double concentration of saponin (1 mg/dose) had therapeutic effect both against experimental canine visceral leishmaniasis (Santos F N et al., Vaccine 2007; 25: 6176-6190) and against the naturally acquired infection in the endemic area (Borja Cabrera G P et al., Vaccine 2004; 22: 2234-2243). The immunotherapy with saponin-enriched Leishmune® vaccine increased levels of IgG2 antibodies correlated with protective response, the levels of CD8+ lymphocytes producers of gamma interferon, and yielded from 79 to 95% of positive IDR responses, resulting in the survival of dogs treated for up to 5 years (to date) which showed no symptoms and which were free of parasites in the 22 nd  month of the experiment. By the same date, 37% (17/46 dogs) of deaths by CVL were recorded in the untreated control group (Borja Cabrera G P et al., Vaccine 2004; 22: 2234-2243). 
         [0016]    The immunotherapy with Leishmune® represents a benefit in the treatment of the dogs, where the chemotherapy treatment is not recommended or forbidden, such as in Brazil. The concern is that the use of few available human drugs might select resistant parasites. Also controversial efficacy results were found in after dog chemotherapy against CVL. In fact, despite generating a temporary remission of symptoms, relapse usually takes place weeks or months after the completion of treatment. VL in humans is often treated with Meglumine antimoniate (Glucantime®) allopurinol, Amphotericin B or the combination of Glucantime and allopurinol. 
         [0017]    The present invention surprisingly discloses that chemotherapy combined with immunotherapy with the enriched Leishmune® vaccine of saponin enables eradication of the disease in dogs with canine visceral leishmaniasis, not only by their increase in survival but also by the absence of parasites and parasite-DNA in them. 
         [0018]    As an illustration, however not limited, the following chemotherapy agents can be effectively utilized in combination with a vaccine in the compositions and methods of the present invention: analogs of inosine, formicine and analogues of nucleosides; antibacterial antibiotics: aminoglycosides, amphenicols, ansamycins, beta-lactams such as penicillin and cephalexins lincosamides, macrolides, polypeptides, tetracyclines, cycloserine, mupirocin, tuberines, diaminopyrimidines, nitrofurans, quinolones, sulfonamides, sulfones, enrofloxacin, paromomycin and other aminoglycosides, antiparasitic drugs: allopurinol, pentavalent antimonials (N-Methyl-meglumine, Na stibogluconate), amphotericin B, liposomal amphotericin B, aminosidine, pentamidine, alkylphosphocholines, metronidazole, buparvaquone, sitamaquine or 8 aminoquinoline and temporins, anti-fungal drugs such as: ketoconazole, fluconazole, itraconazole, terbinafine, and anti-cancer drugs such as the miltefosine and stimaquine among others. 
         [0019]    In the present invention, both in the Composition as well as in the Formulation, Use or Kit, the saponin, preferably, is enriched. The invention will be better understood from the following illustrative trial: 
         [0020]    A total of 104 dogs with canine visceral leishmaniasis from the state of Sao Paulo, Brazil were assessed in this trial. All of the cities showed recent epidemic episodes of canine and human VL. All animals were seropositive to FML antigen of  Leishmania  ( L .)  donovani  in the FML-ELISA trial and asymptomatic at the start in the trial. All dogs were regularly monitored by two Veterinary Clinics. 
         [0021]    In order to avoid any interference in the trial and knowing that the increase in anti-FML serum antibodies of infected dogs is related to the increase in the number of symptoms and to the positive  Leishmania  DNA-PCR results, the distribution of dogs in the treated group followed a stratified randomization according to serum absorbance values in the FML-ELISA assays. In this experiment the IT and ICT treated groups showed similar composition of breeds (Table #2), and thus each group had no meaningful differences in the proportions of breeds of dogs having greater susceptibility to CVL. Three doses of vaccine were injected via the subcutaneous route in the back of the animals, with a 20-to-30-day interval. 
         [0000]    
       
         
               
             
               
               
               
               
             
               
               
               
               
             
           
               
                 TABLE 2 
               
             
             
               
                   
               
               
                 Breed composition after randomization of IT and ICT groups. 
               
             
          
           
               
                   
                 Number 
                 Immune 
                 Number 
               
               
                 Immunotherapy 
                 of Dogs 
                 Chemotherapy 
                 of Dogs 
               
               
                   
               
             
          
           
               
                 German Shepherd* 
                 1 
                 German Shepherd 
                 1 
               
               
                 Doberman* 
                 1 
                 Doberman* 
                 1 
               
               
                 Boxer* 
                 4 
                 Boxer* 
                 3 
               
               
                 Schnauzer* 
                 1 
                 Cocker Spaniel* 
                 1 
               
               
                 Australian 
                 2 
                 Rottweiler * 
                 4 
               
               
                 Shepherd 
                   
                   
                   
               
               
                 Pit Bull 
                 2 
                 Poodle 
                 4 
               
               
                 Poodle 
                 2 
                 Labrador 
                 2 
               
               
                 Labrador 
                 4 
                 Pit Bull 
                 1 
               
               
                 Pinscher 
                 1 
                 Pinscher 
                 2 
               
               
                 Daschund 
                 1 
                 Brazilian Terrier 
                 3 
               
               
                 Lhasa Apso 
                 1 
                 Daschund 
                 4 
               
               
                 Basset hound 
                 1 
                 Dogo 
                 1 
               
               
                 SRD 
                 10 
                 SRD 
                 8 
               
               
                 Total 
                 31 
                   
                 35 
               
               
                   
               
               
                 The breeds indicated by * are considered susceptible to CVL by clinical, parasitological or genetic criteria. 
               
             
          
         
       
     
         [0022]    Initially, dogs treated with the saponin-enriched Leishmune® vaccine (1 mg) were compared with dogs treated with the same vaccine developed in the laboratory with the results showing that there were no significant differences between the percentage of symptomatic dogs, or of dogs with positive IDR or PCR reactions or parasites in lymph nodes and deaths by CVL, indicating that the commercial Leishmune® formulation has the same immunotherapeutic properties as the laboratory formulation (FIG. 1). 
         [0023]    Considering the above results, the dogs vaccinated with the commercial Leishmune® vaccine or with the laboratory vaccine were assessed together. Subsequently, the immunotherapy effect (IT) of the Leishmune® vaccine (n=31) was compared to the immunechemotherapeutic effect (ICT) (n=35), using the Leishmune® saponin-enriched vaccine along with allopurinol (10-20 mg/kg, preferentially 10 mg/kg every 12 hours for 15 months in 23 dogs) or allopurinol in combination with amphotericin B, (0.5 mg/kg, every three days, 16 doses in 9 dogs) in the treatment against CVL and enrofloxacin (5 mg/kg once a day, for 10 days in 1 dog) or cephalexin (30 mg/kg every 12 hours, for 7 days in 1 dog) against secondary infections. 
         [0024]    No meaningful difference in the proportion of symptomatic dogs was found among non-treated controls, IT or ICT treated dogs prior to treatment (month 0) (Picture #2) confirming the homogeneity of the groups. 
         [0025]    In the third month after vaccination (FIG. 2), similar efficacy and no considerable differences were found between the two treatments in most variables. When compared with untreated controls, both IT and ICT treatments have increased positive IDR-response ratio (from 8 to 67-76%) and reduced the ratio of symptomatic cases (from 100 to 33-18%) the ratio of cases with evidence of parasites (from 54 to 12-15%), and deaths ratio attributable to CVL (from 48 to 19-12%) revealing the control of clinical and parasitological disease that results in the majority of dogs becoming asymptomatic. Until month 3 however, neither IT or ICT treatments were able to eliminate the evidence of  leishmania  DNA in lymph nodes and even a significant increase in PCR positivity over the untreated controls (38%; p=0.0075) and over the IT group (58%; p=0.0487), was seen in dogs of the ICT group (85%), indicating their important  Leishmania  latent infection condition (FIG. 2). The result points out that both treatments—IT and ICT—, soon after vaccination, increased and maintained the protective cellular immune response against  Leishmania  infection, fending off the spread of the disease, reducing the deaths ratio and turning dogs asymptomatic. However, latent infection by  Leishmania  is revealed by the presence of residual  Leishmania  DNA detected by molecular diagnostic tools. Therefore the recovery of the cellular immune response is due to the IT treatment with Leishmune® since no significant additional contribution of the chemotherapy treatment is observed on this variable. 
         [0026]    As the potential therapeutic effects of Leishmune® vaccine enriched through IT and ICT was evident by the third month, and symptoms and death were significantly increased in untreated controls, for ethical reasons, veterinarians, in this trial, decided to treat the control dogs with chemotherapy against CVL and they were omitted out from the study after treatment. 
         [0027]    FIG. 2 also presents the results obtained on month 8 after vaccination was completed. Dogs of both IT and ICT groups showed further increases in the proportions of positive results of IDR, present in only 8% of the untreated controls on month 3, and detected in 100% of animals on month 8. These results represent 33 to 24% of respective meaningful increase on the scores recorded on month 3, showing that all infected dogs recovered their active cellular immune response against  Leishmania  subsequent to vaccination. No significant change in the symptomatic cases, deaths, or evidence of parasite was noticed, indicating that both treatments result in an asymptomatic condition by month 3. The only major difference noticed between the two treatments on month 8 was a sharp decline in the ratio of dogs showing positive PCR results (from 85 to 20%; p=0.0001), observed only in the ICT group, while the IT group remained unchanged (from 58 to 67%, p=0.7288), suggesting that the chemotherapy treatment added to vaccination with Leishmune enriched with saponin cleared latent infection, therefore healing the dogs. A highly meaningful difference between the positivity on PCR from the ICT group (20%) and from IT group (67%) on month 8 (p=0.0253) (FIG. 2) point out that 70% of the increase in the healing rate was achieved by ICT treatment. 
         [0028]    Information obtained 4.5 years after the outset of the trials showed no significant difference in survival rate of IT or ICT group, with only 13% of dogs in the IT group (3/23) and 7% of the ICT group (2/30) dying of CVL between month 8 and 4.5 years (FIG. 2). The cumulative-deaths ratio by CVL within 4.5 years of experiment was 32% for the IT group (10/31) and 20% of the ICT group (7/35) (p=0.2780). This not significant difference suggests a similar healing rate by the two treatments. However, and most surprisingly, when compared with the untreated control group on month 3 (12/25 dogs, 48%), a reduction in the deaths rate by CVL is experienced only after treatment by ICT (7/35 dogs, 20%, 0.0273), but not after IT treatment (32%, p=0,278) (FIG. 2). Regarded together with the negative results of PCR of lymph nodes, the results indicate the advantage of the ICT treatment for control and cure of CVL. 
         [0029]    For dog owners and veterinarians, the success of the chemotherapy means the remission of clinical signs, but in endemic areas this is unacceptable because the vectors are still present and the likelihood that these dogs are still infectious and that the disease might be transmitted to humans cannot be ruled out. For parasitologists, a cure means the riddance of parasites, while for public health agencies, epidemiologists and entomologists, the lack of infectivity for blood-feeding sandflies and transmission-blockage of resistant strains, is sufficient. However, the clinical and parasitological cure is insufficient to consider the animal as “cured” since a sterile cure would mean that there is no evidence of parasites or  Leishmania  DNA in the animal and that it is no longer able to transmit the disease. 
         [0030]    The treatment of dogs infected with enriched Leishmune® is able to enhance the cellular immune response, reduce the symptoms, including the presence of parasites in lymph nodes, and deaths. That is, the treatment of IT with enriched Leishmune® is able to control the disease, induce remission, and promote a fast clinical and parasitological cure of animals. In the ICT treatment, the further use of chemotherapy can achieve, 8 months after the outset of vaccination, the healing of animals, including clearance of  Leishmania  DNA from the lymph nodes, as shown by methods of high-sensitivity molecular diagnosis, leaving the dogs not infectious. Indeed, these animals no longer present a risk of disease transmission to humans in endemic areas. The finding of a lower cumulative index of deaths in the group treated by ICT, 4.5 years subsequent to the onset of the experiment, indicates the superiority of this treatment. 
         [0031]    The results of this invention, investigated in groups of 31 to 35 dogs, is more significant when compared with other literature studies which utilize only 5 to 17 dogs. 
         [0032]    Using only chemotherapy with pentavalent antimony, allopurinol, amphotericin B, liposomal amphotericin B, aminosidine, pentamidine or an assortment of antimicrobial and antifungal drugs such as metronidazole, ketoconazole and fluconazole induces some clinical improvement, but the parasitological cure is rarely found and DNA evidence usually persists. 
         [0033]    In fact, after treatment with antimoniate, parasites were recovered from 79% of the 15 dogs treated and 5/6 dogs were PCR positive. Even 9/10 of the dogs treated with allopurinol showed clinical recovery but 8 of them were positive for parasites in culture of parasites or PCR removed from lymph node. Furthermore, 5 of 6 dogs treated with meglumine and allopurinol remained positive in the parasitological aspect and 2 of them were infectious for phlebotomy. Thirteen dogs were treated with liposomal amphotericin B showed fast clinical improvement, albeit remained positive in the parasitological aspect, and recurrence was detected in 12 of them. Eleven out of 12 dogs, treated with aminosidine improved clinically, but 4/4 showed parasites in culture samples of lymph nodes. With higher doses of aminosidine 3/12 dogs showed absence of symptoms and parasites for 4 years with relapse occurring in 9 others. Dogs treated with pentamidine also improve clinically, but show recurrence of the disease. 
         [0034]    Immunotherapy with the saponin-enriched Leishmune® vaccine achieved better results than those previously reported for chemotherapy alone, and that immunochemotherapy with Leishmune® was better than the treatment with immunotherapy alone. 
         [0035]    The immunochemotherapy with the enriched Leishmune® is better than the usual chemotherapy with allopurinol, provided that it cuts down the time allocated and the intrinsic toxicity. While dogs treated with allopurinol only recover from 2 to 6 months, without parasitological cure or negative results for PCR even with 20 months of treatment and relapse in % dogs, treatment by ICT with Leishmune® and 15 months of allopurinol showed 89%-clinical cure, 100% parasitological cure and recovery of the cellular immune response, and 76% of negative PCR by month 8. 
         [0036]    The ICT effect has been studied for a vaccine of  Leishmania  ( L .)  infantum  lysate and Glucantime® in 5 dogs monitored for six (6) months. Treated animals showed clinical improvement, but recurrence in 3/5 months and positive lymph nodes. Thus, immunotherapy with enriched Leishmune® was better than immunochemotherapy with  L. infantum  vaccine. 
         [0037]    It was recently noticed that immunotherapy with Leishmune®, (containing 0.5mg of saponin) using two simultaneous doses, left infected dogs asymptomatic and negative for immunohistochemistry for 2 years. 
         [0038]    Bearing in mind the deficiencies of chemotherapy in CVL and its negative impact on epidemiological control of the disease, the use of a protective vaccine in immunotherapy of already infected dogs is highly encouraging and would have greater acceptance in the community than control based upon slaughter of infected dogs. This invention demonstrates the therapeutic value of the saponin enriched Leishmune® vaccine in conjunction with chemotherapy, when used in the immunechemotherapeutic treatment canine visceral leishmaniasis, resulting in an effective control of the disease in endemic areas. 
         [0039]    The beneficial effect of the therapy or immunochemotherapy with FML-saponin vaccine or Leishmune®, shown in the prevention and treatment of canine visceral leishmaniasis and in the consequent decrease of human visceral leishmaniasis caused by  Leishmania chagasi  in Brazil can also be utilized to prevent, treat and cure visceral leishmaniasis all over the World. Indeed, the FML antigen isolated from  Leishmania  ( L .)  donovani  (Sudan), the underlying agent of the human disease in India and some regions of Africa, is recognized by sera of human and dogs infected with  L. infantum  in Spain (Europe) and by  Leishmania chagasi  in America (Brazil). 
         [0040]    Worldwide, the incidence of visceral leishmaniasis exceeds tegumentary leishmaniasis, a disease more common albeit less lethal, but mutilating in its progression. The FML-saponin vaccine or Leishmune® can thus be used as .a tool in the prevention, control, immunotherapy or immunochemotherapy of both visceral and tegumentary leishmaniasis. Of 2,000,000 new annual cases of leishmaniasis in the world, 1,500,000 are tegumentary leishmaniasis, which is a form of three clinical syndromes of variable expression, known as: cutaneous leishmaniasis (CL), mucocutaneous leishmaniasis (MCL) and diffuse leishmaniasis (DL). The species of parasites of the  Leishmania  genus are separated into two subgenera:  Leishmania  ( L .) and  Viannia  ( V .); there are nearly 30 species that cause morbidity and mortality in endemic areas. While  Leishmania  from  donovani  complex ( L . ( L .)  donovani, L. infantum-L . ( L .)  chagasi ) are causative agents of kala-azar or visceral leishmaniasis, the  Leishmania mexicana  ( L . ( L .).  mexicana, L . ( L .).  pifanoi, L . ( L .)  amazonensis, L. enrietti, L . ( L .)  venezuelensis ) and the  Leishmania braziliensis  complexes ( L . ( V .)  brazilensis, L . ( V .)  guyanensis, L . ( V .)  panamensis, L . ( V ).  peruviana, L . ( V .) Lainson, L. ( V .) Shaw, L. (V.) Naiffl) cause the cutaneous. mucocutaneous and diffuse Leishmaniasis in the New World while the  L . ( L .)  tropica, L . ( L .)  major, L  ( L .)  aethiopica  are agents of tegumentary leishmaniasis in the Old World. 
         [0041]    Over 90% of the cases of cutaneous leishmaniasis occur in Afghanistan, Iran, Saudi Arabia, Syria, Brazil and Peru. 
         [0042]    Experiments demonstrate that the FML-saponin vaccine induced a 65%-protection in mice challenged with  L . ( L .)  mexicana . Also, it has been shown that Balb/c mice vaccinated with 3 doses of FML in conjunction with IL-12, saponin Quil-A, Riedel de Haën or QS-21 induced significantly augmented responses of antibodies and of IDR against lysate of  L . ( L .)  amazonensis . The responses were even greater than those generated in mice vaccinated with the FML analog fraction isolated from  L . ( L .)  amazonensis , confirming the immune prophylactic potential of the FML of  L . ( L .)  donovani  against both leishmaniasis. The FML contains as its major antigenic fraction the GP36 glycoprotein, identified after cloning as a Nucleoside hydrolase (NH36) enzyme. This enzyme is vital for the parasite, because it cleaves imported nucleosides releasing the bases used by the parasite for the synthesis its own DNA. A DNA vaccine containing the NH36 Nucleoside hydrolase gene, the VR1012NH36, was prophylactic and immunotherapeutic against murine visceral leishmaniasis by  L . ( L .)  chagasi  and murine cutaneous by  L . ( L .)  mexicana , suggesting that this main antigen from FML induces a cross-protection against tegumentary leishmaniasis. Recently, we identified by cloning, the Nucleoside hydrolase of  L . ( L .)  amazonensis  with extremely high homology with the identified in  L . ( L .)  donovani , which explains the possible molecular basis of the cross-protection. We also examined the immune response and protection induced in Balb/c mice by vaccination with 3 subcutaneous doses of FML (150 μg)+saponin (100 μg) against infection with 10 6  promastigotes of  L . ( L .)  amazonensis  from amastigotes in hamsters. 
         [0043]    On week 26, after infection, meaningful differences were found between the groups, in the increased size of the paws (p=0.004). The FML+saponin vaccine induced a 49%-reduction in the development of the size of the lesions (FIG. 3). Actually, the increase in size of paws was detected in 5 from 7 animals treated with saline and only 1 treated with FML-saponin (FIG. 3). The analysis of parasite load by limiting dilution of injuries tissue of those that survived indicated that there was significant protection in animals vaccinated with FML+saponin (FIG. 4). In fact, an 81.8%-reduction in titers of parasites and a 77.8%-reduction of parasite counts of animals vaccinated with FML-saponin was detected. 
         [0044]    The results suggest that the FML-saponin vaccine induces significant cross-protection against tegumentary leishmaniasis by  L . ( L .)  amazonensis  and  L . ( L .)  mexicana  confirming the potential of this vaccine as a control tool of both visceral and tegumentary leishmaniasis. The previous detection of the immunotherapeutic and prophylactic effect of the DNA vaccine containing the NH36 gene of the FML complex, against canine visceral and murine tegumentary and visceral leishmaniasis, confirms the relevance of the FML complex in protecting against both diseases and suggests its potential healing effect in immunochemotherapy of human visceral and tegumentary leishmaniasis.