clove and Trypanosomiasis

The parasite Trypanosoma brucei is the main cause of the sleeping sickness threatening millions of populations in many African countries. The parasitic infection is currently managed by some synthetic medications, most of them suffer limited activity spectrum and/or serious adverse effects. Some studies have pointed out the promising therapeutic potential of the plant extracts rich in polyphenols to curb down parasitic infections caused by T. brucei and other trypanosomes. In this work, the main components dominating Eugenia uniflora and Syzygium samarangense plant extracts were virtually screened, through docking, as inhibitors of seven T. brucei enzymes validated as potential drug targets. The in vitro and in vivo anti-T. brucei activities of the extracts in two treatment doses were evaluated. Moreover, the extract effects on the packed cell volume level, liver, and kidney functions were assessed. Five compounds showed strong docking and minimal binding energy to five target enzymes simultaneously and three other compounds were able to bind strongly to at least four of the target enzymes. These compounds represent lead hits to develop novel trypanocidal agents of natural origin. Both extracts showed moderate in vitro anti-trypanosomal activity. Infected animal groups treated over 5 days with the studied extracts showed an appreciable in vivo anti-trypanosomal activity and ameliorated in a dose dependent manner the anaemia, liver, and kidney damages induced by the infection. In conclusion, Eugenia uniflora and Syzygium samarangense could serve as appealing sources to treat trypanosomes infections.

Topics: Animals; Computer Simulation; Dose-Response Relationship, Drug; Eugenia; Female; Humans; Male; MCF-7 Cells; Models, Molecular; Molecular Docking Simulation; Plant Extracts; Protein Structure, Secondary; Rats; Rats, Wistar; Syzygium; Trypanocidal Agents; Trypanosoma brucei brucei; Trypanosomiasis

This study aims to evaluate the prevalence and density of haemoparasites in wild malagasy bats. Among the 440 bats, belonging to 14 species sampled in 5 localities in different bio-climatic zones of the island, 93 (21%) showed at least 1 haemoparasite with, by order of frequency, Haemoproteidae (15.7% of 440 bats), microfilariae (7.0%) and Trypanosoma (0.7%). Among these 93 bats, 92 (99%) belonged to the family Vespertilionidae. Four bat species, all endemic to the Madagascar region (Madagascar and Comoros), were found to harbour parasites: Miniopterus manavi with Haemoproteidae (38% of 129 individuals), microfilariae (23%) and Trypanosoma (2%); Myotis goudoti with Haemoproteidae (24% of 68 individuals) and microfilariae (1%); Miniopterus gleni with Haemoproteidae (23% of 13 individuals); and Triaenops furculus with Haemoproteidae (4% of 28 individuals). The sex of bats was not linked to parasite prevalence. Within Miniopterus manavi, those individuals with greater weight also had a higher prevalence of microfilariae; and within the individuals harbouring microfilariae the greatest weights corresponded to the highest density of microfilariae. Ten bat species (with 202 individuals examined) were negative for any haemoparasite. This study is the first to provide evidence of haemoparasites in Malagasy bats; it provides interesting insights, especially concerning the parasite distribution per bat species and families, the pathogenicity of this type of parasitism and the parasite transmission by arthropod vectors.

Topics: Altitude; Animals; Arthropod Vectors; Body Weight; Chiroptera; Climate; Endemic Diseases; Female; Filariasis; Humans; Madagascar; Male; Microfilariae; Parasitic Diseases, Animal; Population Density; Population Surveillance; Prevalence; Sex Distribution; Trypanosomiasis

This study aims to evaluate the prevalence and density of haemoparasites in native Malagasy birds. Among the 387 birds, belonging to 43 species sampled at six localities in different bio-climatic zones of the island, 139 (35.9%) showed at least 1 hemoparasite with, by order of frequency, Plasmodium and/or Haemoproteus (19.9%), microfilariae (13.7% of 387 birds), Leucocytozoon (11.1%) and Trypanosoma (1.0%). An analysis to further elucidate these observations took into account the interaction of different environmental variables (altitude, season, site of collection) or aspects of the birds (age, weight, sex). There is evidence that some parasites preferentially infect some bird species or families. The largest male birds harboured the highest prevalences and densities of haemoparasite, regardless of species. These findings extend knowledge of bird/blood parasite relationships of Malagasy birds and provide interesting insights, especially concerning the pathogenicity of this type of parasitism and the parasite transmission by insect vectors.

Topics: Age Distribution; Altitude; Animals; Animals, Wild; Bird Diseases; Body Weight; Climate; Helminthiasis, Animal; Madagascar; Malaria; Male; Parasitic Diseases, Animal; Population Surveillance; Prevalence; Seasons; Sex Distribution; Trypanosomiasis

Topics: Animals; Apicomplexa; Bird Diseases; Birds; Blood; Madagascar; Malaria, Avian; Plasmodium; Protozoan Infections; Protozoan Infections, Animal; Trypanosoma; Trypanosomiasis