Your search keyword '"Boulangé, Alain"' showing total 6 results

1. Experimental evidence that immune trypanolysis using the LiTat 1.3 and LiTat 1.5 variant antigen types is not specific to Trypanosoma brucei gambiense in pigs.

Author

Ilboudo, Kadidiata, Hounyeme, Robert Eustache, Kabore, Jacques, Boulangé, Alain, Gimonneau, Geoffrey, Salou, Ernest, Belem, Adrien Gaston Marie, Lejon, Veerle, Compaoré, Charlie Franck Alfred, Bucheton, Bruno, Koffi, Mathurin, Solano, Philippe, Berthier, David, Thevenon, Sophie, and Jamonneau, Vincent

Abstract

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Published

2022

2. Experimental evidence that immune trypanolysis using the LiTat 1.3 and LiTat 1.5 variant antigen types is not specific to Trypanosoma brucei gambiensein pigs

Author

Ilboudo, Kadidiata, Hounyeme, Robert Eustache, Kabore, Jacques, Boulangé, Alain, Gimonneau, Geoffrey, Salou, Ernest, Belem, Adrien Gaston Marie, Lejon, Veerle, Compaoré, Charlie Franck Alfred, Bucheton, Bruno, Koffi, Mathurin, Solano, Philippe, Berthier, David, Thevenon, Sophie, Jamonneau, Vincent, Ilboudo, Kadidiata, Hounyeme, Robert Eustache, Kabore, Jacques, Boulangé, Alain, Gimonneau, Geoffrey, Salou, Ernest, Belem, Adrien Gaston Marie, Lejon, Veerle, Compaoré, Charlie Franck Alfred, Bucheton, Bruno, Koffi, Mathurin, Solano, Philippe, Berthier, David, Thevenon, Sophie, and Jamonneau, Vincent

Abstract

In the context of the human African trypanosomiasis elimination process, reliable and accurate diagnostic tools are crucial for exploring the role of a potential animal reservoir of Trypanosoma brucei gambiense. The immune trypanolysis test (TL) using the variant antigen types (VAT) LiTat 1.3 and LiTat 1.5, described as a specific serological method to detect people infected by T. b. gambiense, seems to be a promising tool. However, its specificity was recently questioned during field animal surveys. The present study evaluates the performance of TL during experimental T. b. bruceiinfection in pigs. Eight infected pigs and four uninfected pigs were followed up with blood and plasma collection. Blood was used for parasitological investigation. TL was performed on the plasma with the LiTat 1.3, LiTat 1.5 and LiTat 1.6 VATs. All control pigs remained negative to parasitological investigation and TL. Trypanosomes were detected in all the infected pigs and the first detection was between 10 and 14 days post infection (dpi). TL results showed that infected pigs developed antibodies against the three VATs. The first antibody detections by TL occurred between 14 and 21 dpi for antibodies directed against LiTat 1.6, 21 and 168 dpi for antibodies directed against LiTat 1.5 and 70, and 182 dpi for antibodies directed against LiTat 1.3. This study highlights for the first time that TL using LiTat 1.3 and LiTat 1.5 VATs is not specific to T. b. gambiense. Development of specific diagnostic tools for the detection of T. b. gambienseinfections in animals, especially in pigs, is still needed.

Published

2022

3. Molecular and Biochemical Characterization of a Cathepsin B-Like Protease Family Unique to Trypanosoma congolense

Author

Mendoza-Palomares, Carlos, Biteau, Nicolas, Giroud, Christiane, Coustou, Virginie, Coetzer, Theresa, Authié, Edith, Boulangé, Alain, and Baltz, Théo

Abstract

Cysteine proteases have been shown to be essential virulence factors and drug targets in trypanosomatids and an attractive antidisease vaccine candidate for Trypanosoma congolense. Here, we describe an important amplification of genes encoding cathepsin B-like proteases unique to T. congolense. More than 13 different genes were identified, whereas only one or two highly homologous genes have been identified in other trypanosomatids. These proteases grouped into three evolutionary clusters: TcoCBc1 to TcoCBc5 and TcoCBc6, which possess the classical catalytic triad (Cys, His, and Asn), and TcoCBs7 to TcoCBs13, which contains an unusual catalytic site (Ser, Xaa, and Asn). Expression profiles showed that members of the TcoCBc1 to TcoCBc5 and the TcoCBs7 to TcoCBs13 groups are expressed mainly in bloodstream forms and localize in the lysosomal compartment. The expression of recombinant representatives of each group (TcoCB1, TcoCB6, and TcoCB12) as proenzymes showed that TcoCBc1 and TcoCBc6 are able to autocatalyze their maturation 21 and 31 residues, respectively, upstream of the predicted start of the catalytic domain. Both displayed a carboxydipeptidase function, while only TcoCBc1 behaved as an endopeptidase. TcoCBc1 exhibited biochemical differences regarding inhibitor sensitivity compared to that of other cathepsin B-like proteases. Recombinant pro-TcoCBs12 did not automature in vitro, and the pepsin-matured enzyme was inactive in tests with cathepsin B fluorogenic substrates. In vivo inhibition studies using CA074Me (a cell-permeable cathepsin B-specific inhibitor) demonstrated that TcoCB are involved in lysosomal protein degradation essential for survival in bloodstream form. Furthermore, TcoCBc1 elicited an important immune response in experimentally infected cattle. We propose this family of proteins as a potential therapeutic target and as a plausible antigen for T. congolense diagnosis.

Published

2008

4. Congopain from Trypanosoma congolense: Drug Target and Vaccine Candidate

Author

Lalmanach, Gilles, Boulangé, Alain, Serveau, Carole, Lecaille, Fabien, Scharfstein, Julio, Gauthier, Francis, and Authié, Edith

Abstract

AbstractTrypanosomes are the etiological agents of human sleeping sickness and livestock trypanosomosis (nagana), which are major diseases in Africa. Their cysteine proteases (CPs), which are members of the papain family, are expressed during the infective stages of the parasites life cycle. They are suspected to act as pathogenic factors in the mammalian host, where they also trigger prominent immune responses. Trypanosoma congolense, a major pathogenic species in livestock, possesses at least two families of closely related CPs, named CP1 and CP2. Congopain, a CP2-type of enzyme, shares structural and functional resemblances with cruzipain from T. cruzi and with mammalian cathepsin L. Like CPs from other Trypanosomatids, congopain might be an attractive target for trypanocidal drugs. Here we summarise the current knowledge in the two main areas of research on congopain: first, the biochemical properties of congopain were characterised and its substrate specificity was determined, as a first step towards drug design; second, the possibility was being explored that inhibition of congopain by hostspecific antibodies may mitigate the pathology associated with trypanosome infection.

Published

2002

5. Trypanosoma congolense:A Comparison of T-Cell-Mediated Responses in Lymph Nodes of Trypanotolerant and Trypanosusceptible Cattle during Primary Infection

Author

Lutje, Vittoria, Taylor, Katherine A., Kennedy, David, Authié, Edith, Boulangé, Alain, and Gettinby, George

Abstract

A comparison of T-cell-mediated immune responses in trypanotolerant N'Dama and susceptible Boran cattle during primary infection with tsetse-transmittedTrypanosoma congolensewas conducted to assess whether different patterns of T-cell activation occurred during trypanosome infection. Proliferation and IFN-γ synthesis in response to trypanosome antigens and to the mitogen Con A were measured in LNC before infection and 10 and 35 days postinfection. Phenotypic analysis of LNC was also carried out. No significant differences in thein vitroproliferation of LNC to VSG, to hsp70/BiP, or to Con A were detected between the breeds. In contrast, IFN-γ production in response to Con A was higher in Boran cattle at 35 days p.i. A reduction in the number of CD2+ and CD4+ T-cells and an increase in the percentage of B-cells, CD8+ T-cells, and γδ T-cells during infection in both N'Dama and Boran was revealed by cytofluorimetric analysis of lymph node cells.

Published

1996

6. Trypanosoma congolense:B-Lymphocyte Responses Differ between Trypanotolerant and Trypanosusceptible Cattle

Author

Taylor, Katherine A., Lutje, Vittoria, Kennedy, David, Authié, Edith, Boulangé, Alain, Logan-Henfrey, Linda, Gichuki, Benson, and Gettinby, George

Abstract

Trypanosomiasis is a serious constraint to livestock production in sub-Saharan Africa. Some breeds of cattle are genetically more resistant to the pathogenic effects of trypanosome infection. We measured B-cell activation and the quantity and isotype of antibody produced at the cellular level in six trypanotolerant N'Dama and five trypanosusceptible Boran cattle. The frequencies of spleen cells secreting total and parasite-specific IgM and IgG were measured prior to and 16, 28, and 35 days after a primary challenge withTrypanosoma congolense.Boran cattle had higher frequencies of splenic cells secreting IgM specific for trypanosome-derived variable surface glycoprotein (VSG), cysteine protease (congopain, CP), and heat shock protein (hsp70/BiP) and the nonparasite antigen, ovalbumin, than did N'Dama cattle. In contrast, the number of VSG-specific IgG-secreting cells was significantly greater in N'Dama than in Boran cattle. During infection, low titers of anti-VSG IgM were detected transiently in the serum of all animals. However, N'Dama had significantly more VSG-specific IgG in blood than Boran during infection. The peripheral blood mononuclear cell population of N'Dama cattle contained a higher percentage of surface IgM-positive B-cells prior to and throughout infection than were found in the blood of Boran. In addition, during infection N'Dama cattle had more circulating lymphocytes that could be activatedin vitroto undergo differentiation into IgM- and IgG-secreting cells. These findings demonstrate differences in the frequency of trypanosome-specific antibody-secreting cells in the spleen and in the activation state of B-cells in the blood between N'Dama and Boran cattle during a primary infection withT. congolense.

Published

1996