8 results on '"Belem, Adrien Marie Gaston"'
Search Results
2. Cross border transhumance involvement in ticks and tick-borne pathogens dissemination and first evidence of Anaplasma centrale in Burkina Faso.
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Ouedraogo, Achille S., Zannou, Olivier M., Biguezoton, Abel S., Yao, Kouassi Patrick, Belem, Adrien Marie Gaston, Farougou, Souaibou, Oosthuizen, Marinda, Saegerman, Claude, and Lempereur, Laetitia
- Abstract
In West Africa, cross-border transhumance, also called seasonal migration, is known to be a very important animal production strategy, as it involves about 70 to 90% of cattle. In spite of the cattle movements, some strategic areas of transhumance remain poorly explored regarding ticks and their associated pathogens investigations. The purpose of this study is to evaluate the involvement of transhumance in the spread of cattle ticks and associated pathogens in Burkina Faso (BF) and Benin (BN), in a context of speedy invasion of West African livestock by Rhipicephalus microplus. A longitudinal survey was performed on 210 cattle from BF, monitored for ticks and tick-borne pathogens (TBP) during one seasonal transhumance. The first sampling coded "T0BF" took place in eastern BF, at the transhumance departure. A second sampling "T1BN" was carried out in northern BN, the transhumance arrival zone. A third sampling "T2BF" was done at the return of cattle in eastern BF. Ticks were morphologically identified and TBP detected with reverse line blot hybridization (RLB) assay. A total of 1027 ticks (7 species), 1006 ticks (11 species) and 1211 ticks (9 species) were respectively found at T0BF, T1BN and T2BF. Some species were collected at the three times of sampling without any significant difference in their relative abundances. However, other tick species appeared only at T1BN and/or T2BF. The TBP species found at the three points surveyed were Theileria annulata, Theileria mutans, Theileria velifera, Babesia bigemina and Anaplasma marginale. The most prevalent was T. mutans with 166/210 (79%), 159/210 (75.7%) and 78/210 (37%) cattle positive respectively at T0BF, T1BN and T2BF. Anaplasma centrale was evidenced with 0.5% and 0.9% respectively at T0BF and T2BF. To our knowledge, this represents its first report in the study area. Overall, the TBP prevalences were significantly lower at T2BF, highlighting the effect of tick populations changes induced by transhumance combined with the seasonal variation influence. [ABSTRACT FROM AUTHOR]
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- 2021
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3. Differences in pathogenicity and virulence of Trypanosoma brucei gambiense field isolates in experimentally infected Balb/C mice.
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Sakandé, Hassane, Kaboré, Jacques, Sanou, Djénéba, Belem, Adrien Marie Gaston, Camara, Oumou, Ilboudo, Hamidou, Camara, Mamadou, Koffi, Mathurin, De Meeûs, Thierry, Ravel, Sophie, Bucheton, Bruno, Jamonneau, Vincent, MacLeod, Annette, and Thévenon, Sophie
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TRYPANOSOMIASIS , *TRYPANOSOMA brucei , *PHENOTYPES , *MICROBIAL virulence , *HOST-parasite relationships - Abstract
Trypanosoma brucei gambiense ( T. b. gambiense ) is the major causative agent of human African trypanosomiasis (HAT). A great variety of clinical outcomes have been observed in West African foci, probably due to complex host-parasite interactions. In order to separate the roles of parasite genetic diversity and host variability, we have chosen to precisely characterize the pathogenicity and virulence of T. b. gambiense field isolates in a mouse model. Thirteen T. b. gambiense strains were studied in experimental infections, with 20 Balb/C infected mice per isolate. Mice were monitored for 30 days, in which mortality, parasitemia, anemia, and weight were recorded. Mortality rate, prepatent period, and maximum parasitemia were estimated, and a survival analysis was performed to compare strain pathogenicity. Mixed models were used to assess parasitemia dynamics, weight, and changes in Packed Cell Volume (PCV). Finally, a multivariate analysis was performed to infer relationships between all variables. A large phenotypic diversity was observed. Pathogenicity was highly variable, ranging from strains that kill their host within 9 days to a non-pathogenic strain (no deaths during the experiment). Virulence was also variable, with maximum parasitemia values ranging from 42 million to 1 billion trypanosomes/ml. Reduced PCV and weight occurred in the first two weeks of the infection, with the exception of two strains. Finally, the global analysis highlighted three groups of strains: a first group with highly pathogenic strains showing an early mortality associated with a short prepatent period; a second group of highly virulent strains with intermediate pathogenicity; and a third group of isolates characterized by low pathogenicity and virulence patterns. Such biological differences could be related to the observed clinical diversity in HAT. A better understanding of the biological pathways underlying the observed phenotypic diversity could thus help to clarify the complex nature of the host-parasite interactions that determine the resistance/susceptibility status to T. brucei gambiense . [ABSTRACT FROM AUTHOR]
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- 2018
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4. Population genetics of Trypanosoma brucei gambiense in sleeping sickness patients with treatment failures in the focus of Mbuji-Mayi, Democratic Republic of the Congo.
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Pyana, Patient Pati, Sere, Modou, Kaboré, Jacques, De Meeûs, Thierry, MacLeod, Annette, Bucheton, Bruno, Van Reet, Nick, Büscher, Philippe, Belem, Adrien Marie Gaston, and Jamonneau, Vincent
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AFRICAN trypanosomiasis , *TRYPANOSOMA brucei , *POPULATION genetics , *GENETIC mutation , *TREATMENT effectiveness , *PATIENTS - Abstract
Human African trypanosomiasis (HAT) in the Democratic Republic of the Congo (DRC) is caused by the protozoan Trypanosoma brucei gambiense . Until recently, all patients in the second or neurological stage of the disease were treated with melarsoprol. At the end of the past and the beginning of the present century, alarmingly high relapse rates in patients treated with melarsoprol were reported in isolated HAT foci. In the Mbuji-Mayi focus of DRC, a particular mutation that confers cross resistance for pentamidine and melarsoprol was recently found for all strains studied. Nevertheless, treatment successfully cured a significant proportion of patients. To check for the existence of other possible genetic factors of the parasites, we genotyped trypanosomes isolated from patients before and after treatment (relapsing patients) with eight microsatellite markers. We found no evidence of any genetic correlation between parasite genotype and treatment outcome and we concluded that relapse or cure probably depend more on patients’ factors such as disease progression, nutritional or immunological status or co-infections with other pathogens. The existence of a melarsoprol and pentamidine resistance associated mutation at such high rates highlights an increasing problem, even for other drugs, especially those using the same transporters as melarsoprol and pentamidine. [ABSTRACT FROM AUTHOR]
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- 2015
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5. Identification of Glossina palpalis gambiensis specific salivary antigens: towards the development of a serologic biomarker of human exposure to tsetse flies in West Africa.
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Dama, Emilie, Cornelie, Sylvie, Bienvenu Somda, Martin, Camara, Mamadou, Kambire, Roger, Courtin, Fabrice, Jamonneau, Vincent, Demettre, Edith, Seveno, Martial, Bengaly, Zakaria, Solano, Philippe, Poinsignon, Anne, Remoue, Franck, Belem, Adrien Marie Gaston, and Bucheton, Bruno
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GLOSSINA palpalis , *SALIVARY proteins , *ANTIGENS , *BIOMARKERS , *TSETSE-flies , *ARTHROPODA , *PHARMACOLOGY - Abstract
Abstract: The saliva of blood sucking arthropods contains a number of pharmacologically active compounds that induce an antibody response in exposed human individuals. The objectives of the present study were (i) to assess the human IgG response directed against salivary antigens of Glossina palpalis gambiensis, the main vector of Trypanosoma brucei gambiense in West Africa, as a biomarker of human–tsetse contacts; and (ii) to identify specific salivary antigens. Immune reactivity of human plasma collected within active human African trypanosomiasis (HAT) foci (coastal Guinea), historical foci where tsetse flies are still present (South-West Burkina Faso) and a tsetse free area (Bobo-Dioulasso, Burkina Faso), was measured by ELISA against whole saliva extracts. In the active HAT foci and areas where tsetse flies were present in high densities, specific IgG responses were significantly higher (p < 0.0001) to those in Bobo-Dioulasso or in Loropeni, where tsetse flies were either absent or only present at low densities. Furthermore, 2D-electrophoresis combined with mass spectrometry enabled to reveal that several antigens were specifically recognized by plasma from exposed individuals. Among them, four salivary proteins were successfully identified (Ada, 5′Nuc, Ag5 and Tsgf1). These results represent a first attempt to identify Glossina salivary proteins or synthetic peptides to develop a standardized and specific biomarker of tsetse exposure in West Africa. [Copyright &y& Elsevier]
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- 2013
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6. APOL1 expression is induced by Trypanosoma brucei gambiense infection but is not associated with differential susceptibility to sleeping sickness
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Ilboudo, Hamidou, Berthier, David, Camara, Mamadou, Camara, Oumou, Kabore, Jacques, Leno, Mamadou, Keletigui, Sow, Chantal, Isabelle, Jamonneau, Vincent, Belem, Adrien Marie Gaston, Cuny, Gérard, and Bucheton, Bruno
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AFRICAN trypanosomiasis , *TRYPANOSOMA brucei , *GENE expression , *DISEASE susceptibility , *SERUM , *HYPOTHESIS , *PARASITOLOGY , *MICROBIAL growth , *GENETICS - Abstract
Abstract: Most African trypanosome species are sensitive to trypanolytic factors (TLFs) present in human serum. Trypanosome lysis was demonstrated to be associated with apolipoprotein L-I (APOL1). Trypanosoma brucei (T. b.) gambiense and Trypanosoma brucei rhodesiense, the two human infective trypanosome species, have both developed distinct resistance mechanisms to APOL1 mediated lysis. Whereas T. b. rhodesiense resistance is linked with the expression of the serum resistance associated (SRA) protein that interacts with APOL1 inside the parasite lysosome, inhibiting its lytic action; T. b. gambiense resistance is rather controlled by a reduced expression of the parasite HpHb receptor, limiting APOL1 absorption by trypanosomes. Based on this last observation we hypothesised that variation in the host APOL1 environment could significantly alter T. b. gambiense growth and thus resistance/susceptibility to sleeping sickness. To test this hypothesis, we have measured blood APOL1 relative expression in HAT patients, uninfected endemic controls and serologically positive subjects (SERO TL+) that are suspected to control infection to parasitological levels that are undetectable by the available test used in the field. All RNA samples were obtained from medical surveys led in the HAT mangrove foci of Coastal Guinea. Results indicate that APOL1 expression is a complex trait dependant on a variety of factors that need to be taken into account in the analysis. Nevertheless, multivariate analysis showed that APOL1 expression levels were significantly higher in both HAT and SERO TL+ subject as compared to endemic controls (p =0.006). This result suggests that APOL1 expression is likely induced by T. b. gambiense, but is not related to resistance/susceptibility in its human host. [Copyright &y& Elsevier]
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- 2012
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7. First evidence that parasite infecting apparent aparasitemic serological suspects in human African trypanosomiasis are Trypanosoma brucei gambiense and are similar to those found in patients
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Kaboré, Jacques, Koffi, Mathurin, Bucheton, Bruno, MacLeod, Annette, Duffy, Craig, Ilboudo, Hamidou, Camara, Mamadou, De Meeûs, Thierry, Belem, Adrien Marie Gaston, and Jamonneau, Vincent
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TRYPANOSOMIASIS , *TRYPANOSOMA brucei , *PARASITIC diseases , *SEROLOGY , *DNA , *MICROSATELLITE repeats , *MEDICAL microscopy - Abstract
Abstract: Thanks to its sensitivity and its ease of use in the field, the card agglutination test for trypanosomiasis (CATT) is widely used for serological screening of Trypanosoma brucei gambiense human African trypanosomiasis (HAT). Positive subjects are then examined by microscopy to confirm the disease. However, the CATT exhibits false-positive results raising the question of whether CATT-positive subjects who are not confirmed by microscopic detection of trypanosomes (SERO) are truly exposed to T.b. gambiense infection. For this purpose, we applied microsatellite genotyping on DNA extracted from blood of both HAT confirmed patients and SERO subjects in Guinea and Côte d’Ivoire since microsatellite genotyping has proved useful for the study of T.b. gambiense genetic diversity. Problems of amplification failures raise the question of the sensitivity of microsatellite markers when applied on biological samples especially from SERO subjects for who low blood parasitaemia are suspected. Nevertheless, we have shown that the trypanosomes from SERO individuals that have been genotyped belong to T.b. gambiense group 1 and were identical to those found in HAT patients. These results constitute the first evidences that at least some SERO are indeed infected by T.b. gambiense group 1 and that they may constitute a human reservoir of parasite in HAT foci. Whether these individuals should undergo treatment remains an open question as long as their role in HAT transmission is unknown. Our results strongly recommend the follow-up of such subjects to improve control strategies. [Copyright &y& Elsevier]
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- 2011
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8. Population genetic structure of Guinea Trypanosoma brucei gambiense isolates according to host factors
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Kaboré, Jacques, MacLeod, Annette, Jamonneau, Vincent, Ilboudo, Hamidou, Duffy, Craig, Camara, Mamady, Camara, Oumou, Belem, Adrien Marie Gaston, Bucheton, Bruno, and De Meeûs, Thierry
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TRYPANOSOMA brucei , *POPULATION genetics , *MICROSATELLITE repeats , *HOSTS (Biology) , *SLEEP disorders , *CEREBROSPINAL fluid , *BODY fluids , *PUBLIC health - Abstract
Abstract: Human African trypanosomiasis (HAT) or sleeping sickness is a major public health problem in sub-Saharan Africa and is due to the kinetoplastid parasite Trypanosoma brucei gambiense in West and Central Africa. The exact role of multiple infections, the basis of clinical diversity observed in patients and the determinism that leads trypanosomes into different body fluids of the host remain opened questions to date. In this paper we investigate, in three Guinean foci, whether strains found in blood, lymph or cerebrospinal fluid (CSF) or in patients at different phase of HAT (phase 1, early phase 2 and late phase 2) are representative of the focus they belong to. Amplifications of parasites directly from body fluids led to substantial amounts of allelic drop outs, especially so for blood and CSF samples, which required data recoding of all homozygous sites into missing data. While controlling for geography, date of sampling and patient''s phase of the disease, we found no effect of body fluids in the genetic structure of T. b. gambiense despite the presence of mixed infections. On the contrary, we found that the strains found in patients in different phase of the disease differed genetically, with early phase patients being more likely to be infected with more recent strains than patients at a more advanced phase of the disease. Thus, the combination of date of sampling and patient''s status represents a parameter to be controlled for in population genetic structure analyses. Additional studies will also be required to explore further the phenomenon of mixed infections and its consequences. [Copyright &y& Elsevier]
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- 2011
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