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101. A countrywide molecular survey leads to a seminal identification of the invasive cattle tick Rhipicephalus (Boophilus) microplusin Cameroon, a decade after it was reported in Cote d’Ivoire

Author

Silatsa, Barberine A., Kuiate, Jules-Roger, Njiokou, Flobert, Simo, Gustave, Feussom, Jean-Marc K., Tunrayo, Alabi, Amzati, Gaston S., Bett, Bernard, Bishop, Richard, Githaka, Naftaly, Opiyo, Stephen O., Djikeng, Appolinaire, and Pelle, Roger

Abstract

The cattle tick Rhipicephalus microplusis the most important arthropod vector of livestock diseases globally. Since its introduction in West Africa a decade ago, it has been reported in Ivory Coast, Benin, Togo, Mali, Burkina Faso and Nigeria with potentially far-reaching adverse impacts on the livestock sector in the region. Cameroon is located on a major route for transboundary cattle trade between Central and West Africa and it is therefore at risk from R. microplusinvasion. This study investigated the occurrence of R. microplusin Cameroon, the genetic polymorphism of the tick and population structure of isolates from different regions of the country to provide data that underpin the design of future vector control programs.

Published
2019
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103. Population Genetics and Reproductive Strategies of African Trypanosomes: Revisiting Available Published Data

Author

Koffi, Mathurin, primary, De Meeûs, Thierry, additional, Séré, Modou, additional, Bucheton, Bruno, additional, Simo, Gustave, additional, Njiokou, Flobert, additional, Salim, Bashir, additional, Kaboré, Jacques, additional, MacLeod, Annette, additional, Camara, Mamadou, additional, Solano, Philippe, additional, Belem, Adrien Marie Gaston, additional, and Jamonneau, Vincent, additional

Published
2015
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105. Sociétés, environnements, santé

Author

Assako, René Joly Assako, Attané, Anne, Bado, Jean-Paul, Be, Jean-Marie, Bley, Daniel, Bosseno, Marie-France, Bouchayer, Françoise, Boutaric, Franck, Brenière, Simone-Frédérique, Camara, Mamadou, Cuny, Gérard, Dervieux, Alain, Dutozia, Jérôme, Fontenille, Didier, Gonzalez, Jean-Paul, Grébaut, Pascal, Gruénais, Marc-Éric, Handschumacher, Pascal, Hervouët, Jean-Pierre, Hucy, Wandrille, Kagbadouno, Moïse, Kauffmann, Francine, Laffly, Dominique, Langewiesche, Katrin, Lascoumes, Pierre, Maccario, Jean, Magne, Estelle Kouokam, Maignant, Gilles, Mansinsa, Philémon, Manzambi, Émile Zola, Mathieu, Nicole, Matteï, Jean-Christophe, Mondet, Bernard, Ollivier, Gaëlle, Oryszczyn, Marie-Pierre, Pécaud, Dominique, Ponçon, Nicolas, Salem, Gérard, Seyler, Thomas, Simo, Gustave, Tonmeu, Carine Alix Djilo, Toty, Céline, Tourneux, Henry, Tschirhart, Céline, Vernazza-Licht, Nicole, Walter, Annie, Études des Structures, des Processus d’Adaptation et des Changements de l’Espace (ESPACE), Université de la Méditerranée - Aix-Marseille 2-Université de Provence - Aix-Marseille 1-Avignon Université (AU)-Centre National de la Recherche Scientifique (CNRS)-Université de Nice Sophia-Antipolis (UNSA), Les Afriques dans le monde (LAM), Sciences Po Bordeaux - Institut d'études politiques de Bordeaux (IEP Bordeaux)-Institut de Recherche pour le Développement (IRD)-Institut d'Études Politiques [IEP] - Bordeaux-Université Bordeaux Montaigne-Centre National de la Recherche Scientifique (CNRS), Sciences Economiques et Sociales de la Santé & Traitement de l'Information Médicale (SESSTIM - U912 INSERM - Aix Marseille Univ - IRD), Institut de Recherche pour le Développement (IRD)-Institut National de la Santé et de la Recherche Médicale (INSERM)-Aix Marseille Université (AMU), Société d'Ecologie Humaine, Institut de Recherche pour le Développement (IRD)-Université Bordeaux Montaigne-Institut d'Études Politiques [IEP] - Bordeaux-Sciences Po Bordeaux - Institut d'études politiques de Bordeaux (IEP Bordeaux)-Centre National de la Recherche Scientifique (CNRS), Vernazza-Licht, Nicole, Gruénais, Marc-Éric, Bley, Daniel, Sciences Po Bordeaux - Institut d'études politiques de Bordeaux (IEP Bordeaux)-Institut de Recherche pour le Développement (IRD)-Institut d'Études Politiques [IEP] - Bordeaux-Université Bordeaux Montaigne (UBM)-Centre National de la Recherche Scientifique (CNRS), Institut de Recherche pour le Développement (IRD)-Aix Marseille Université (AMU)-Institut National de la Santé et de la Recherche Médicale (INSERM), and VERNAZZA, Nicole

Subjects
[SDE] Environmental Sciences, 0106 biological sciences, interdisciplinarité, [SDV]Life Sciences [q-bio], Environment- Milieu naturel, southern country, RISQUE SANITAIRE, GROUPE A RISQUE, 01 natural sciences, ENDEMIE, Interdisciplinarity approach, [SHS]Humanities and Social Sciences, Afrique, 0302 clinical medicine, Public Health & Health Care Science, human ecology, Environmental studies, Geography & Development, FOYER EPIDEMIOLOGIQUE, MALADIE DU SOMMEIL, SANTE PUBLIQUE, HOMME, STRATEGIE DE RECHERCHE, CONTACT HOMME VECTEUR, pollution chimique, environnement, sociétés, [SDV] Life Sciences [q-bio], 010601 ecology, interactions santé environnement, Health, MALADIE DE CHAGAS, [SDE]Environmental Sciences, épidémiologie, [SHS] Humanities and Social Sciences, France, mercure, EPIDEMIOLOGIE, Paludisme, recherche scientifique, 030231 tropical medicine, Asie, FACTEUR DE RISQUE, POLITIQUE DE SANTE, FACTEUR ANTHROPIQUE, 03 medical and health sciences, Pays du Sud, SOC057000, RECHERCHE PLURIDISCIPLINAIRE, prévention sanitaire, DISTRIBUTION SPATIALE, santé, [SHS.ANTHRO-SE] Humanities and Social Sciences/Social Anthropology and ethnology, climat, écologie humaine, RISQUE ENVIRONNEMENTAL, VECTEUR, MALADIE EMERGENTE, ANTHROPOLOGIE DE LA SANTE, COMPORTEMENT, PREVENTION SANITAIRE, [SHS.ANTHRO-SE]Humanities and Social Sciences/Social Anthropology and ethnology, Malaria, society, paludisme, JFFH, santé publique, ENQUETE, GESTION DU RISQUE, SYSTEME DE SANTE, endémie
Abstract

International audience; Les domaines de la santé et de l’environnement ont longtemps été considérés, tant par les décideurs que par les scientifiques, comme des réalités disjointes. Il a fallu attendre les dernières décennies pour que soit reconnu et que se concrétise le lien entre environnements et santé avec la création d’agences spécialisées.Qu’il s’agisse de foyers de maladies parasitaires ou de pollution atmosphérique, les situations d’exposition à un risque sanitaire lié à l’environnement relèvent de facteurs particuliers : épidémiologiques, géographiques, politiques, et bien évidemment sociaux.À partir de zones géographiques situées tant au Sud qu’au Nord, les auteurs de cet ouvrage présentent un large éventail de configurations dans lesquelles s’exprime la complexité des relations entre santé et environnements dans leur rapport avec les groupes humains.Ils mettent l’accent sur l’importance de la perception et de la pratique des acteurs (des décideurs aux bénéficiaires des mesures, en passant par les médecins) pour penser le risque sanitaire selon les milieux.Ils soulignent tout l’intérêt de l’apport des sciences sociales et des pratiques interdisciplinaires dès lors qu’il s’agit d’envisager les relations entre un pathogène et l’homme. Chacune des approches s’attache ainsi à éclairer les différentes facettes du risque environnemental, depuis le comportement des individus jusqu’aux politiques nationales, en invitant le le lecteur à se départir de toute vision déterministe et simplificatrice.

Published
2010
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106. A polymorphism in the haptoglobin, haptoglobin related protein locus is associated with risk of human sleeping sickness within Cameroonian populations.

Author

null, null, Ofon, Elvis, Fogue, Pythagore, Simo, Gustave, MacLeod, Annette, Noyes, Harry, Hertz-Fowler, Christiane, Mulindwa, Julius, Ilboudo, Hamidou, Simuunza, Martin, Ebo'o, Vincent, Njiokou, Flobert, Koffi, Mathurin, and Bucheton, Bruno

Subjects
AFRICAN trypanosomiasis, HAPTOGLOBINS, DISEASE susceptibility, GENETIC polymorphisms, CAMEROONIANS, EPIDEMIOLOGY, GENETICS, MEDICAL care
Abstract

Background: Human African Trypanosomiasis (HAT) is a neglected disease targeted for elimination as a public health problem by 2020. Elimination requires a better understanding of the epidemiology and clinical evolution of HAT. In addition to the classical clinical evolution of HAT, asymptomatic carriers and spontaneous cure have been reported in West Africa. A genetic component to human susceptibility to HAT has been suggested to explain these newly observed responses to infection. In order to test for genetic associations with infection response, genetic polymorphism in 17 genes were tested (APOL1, IL1B, IL4, IL4R, IL6, IL8, IL12B, IL12RB1, IL10, TNFA, INFG, MIF, HLA-G, HLA-A, HP, HPR and CFH). Methodology: A case-control study was performed on 180 blood samples collected from 56 cases and 124 controls from Cameroon. DNA was extracted from blood samples. After quality control, 25 samples (24 controls and 1 case) were eliminated. The genotyping undertaken on 155 individuals including 55 cases and 100 controls were investigated at 96 loci (88 SNPs and 8 indels) located on 17 genes. Associations between these loci and HAT were estimated via a case-control association test. Results: Analyses of 64 SNPs and 4 indels out of 96 identified in the selected genes reveal that the minor allele (T) of rs8062041 in haptoglobin (HP) appeared to be protective against HAT (p = 0.0002395, OR 0.359 (CI95 [0.204–0.6319])); indicating higher frequency in cases compared to controls. This minor allele with adjusted p value of 0.0163 is associated with a lower risk (protective effect) of developing sleeping sickness. Conclusion: The haptoglobin related protein HPR and HP are tightly linked and both are duplicated in some people and may lead to higher activity. This increased production could be responsible of the protection associated with rs8062041 even though this SNP is within HP. [ABSTRACT FROM AUTHOR]

Published
2017
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107. Candidate genes-based investigation of susceptibility to Human African Trypanosomiasis in Côte d’Ivoire.

Author

Ahouty, Bernardin, Koffi, Mathurin, Ilboudo, Hamidou, Simo, Gustave, Matovu, Enock, Mulindwa, Julius, Hertz-Fowler, Christiane, Bucheton, Bruno, Sidibé, Issa, Jamonneau, Vincent, MacLeod, Annette, Noyes, Harry, N’Guetta, Simon-Pierre, and null, null

Subjects
AFRICAN trypanosomiasis, DISEASE susceptibility, SINGLE nucleotide polymorphisms, PHENOTYPES, BONFERRONI correction, GENETIC polymorphisms, GENETICS
Abstract

Human African Trypanosomiasis (HAT) or sleeping sickness is a Neglected Tropical Disease. Long regarded as an invariably fatal disease, there is increasing evidence that infection by T. b. gambiense can result in a wide range of clinical outcomes, including latent infections, which are long lasting infections with no parasites detectable by microscopy. The determinants of this clinical diversity are not well understood but could be due in part to parasite or host genetic diversity in multiple genes, or their interactions. A candidate gene association study was conducted in Côte d’Ivoire using a case-control design which included a total of 233 subjects (100 active HAT cases, 100 controls and 33 latent infections). All three possible pairwise comparisons between the three phenotypes were tested using 96 SNPs in16 candidate genes (IL1, IL4, IL4R, IL6, IL8, IL10, IL12, IL12R, TNFA, INFG, MIF, APOL1, HPR, CFH, HLA-A and HLA-G). Data from 77 SNPs passed quality control. There were suggestive associations at three loci in IL6 and TNFA in the comparison between active cases and controls, one SNP in each of APOL1, MIF and IL6 in the comparison between latent infections and active cases and seven SNP in IL4, HLA-G and TNFA between latent infections and controls. No associations remained significant after Bonferroni correction, but the Benjamini Hochberg false discovery rate test indicated that there were strong probabilities that at least some of the associations were genuine. The excess of associations with latent infections despite the small number of samples available suggests that these subjects form a distinct genetic cluster different from active HAT cases and controls, although no clustering by phenotype was observed by principle component analysis. This underlines the complexity of the interactions existing between host genetic polymorphisms and parasite diversity. [ABSTRACT FROM AUTHOR]

Published
2017
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108. Comparative gene expression of Wigglesworthia inhabiting non-infected and trypanosoma brucei gambiense infected Glossina palpalis gambiensis flies

Author

Soumana, Illiassou Hamidou, Tchicaya, Bernadette, Simo, Gustave, Geiger, Anne, Soumana, Illiassou Hamidou, Tchicaya, Bernadette, Simo, Gustave, and Geiger, Anne

Abstract

Tsetse flies (Glossina sp.) that transmit trypanosomes causing human (and animal) African trypanosomiasis (HAT and AAT, respectively) harbor symbiotic microorganisms, including the obligate primary symbiont Wigglesworthia glossinidia. A relationship between Wigglesworthia and tsetse fly infection by trypanosomes has been suggested, as removal of the symbiont results in a higher susceptibility to midgut infection in adult flies. To investigate this relationship and to decipher the role of W. glossinidia in the fly's susceptibility to trypanosome infection, we challenged flies with trypanosomes and subsequently analyzed and compared the transcriptomes of W. glossinidia from susceptible and refractory tsetse flies at three time points (3, 10, and 20 days). More than 200 W. glossinidia genes were found to be differentially expressed between susceptible and refractory flies. The high specificity of these differentially expressed genes makes it possible to distinguish Wigglesworthia inhabiting these two distinct groups of flies. Furthermore, gene expression patterns were observed to evolve during the infection time course, such that very few differentially expressed genes were found in common in Wigglesworthia from the 3-, 10- and 20-day post-feeding fly samples. The overall results clearly demonstrate that the taking up of trypanosomes by flies, regardless of whether flies proceed with the developmental program of Trypanosoma brucei gambiense, strongly alters gene expression in Wigglesworthia. These results therefore provide a novel framework for studies that aim to decrease or even abolish tsetse fly vector competence.

Published
2014

111. The transcriptional signatures of Sodalis glossinidius in the Glossina palpalis gambiensis flies negative for Trypanosoma brucei gambiense contrast with those of this symbiont in tsetse flies positive for the parasite: Possible involvement of a Sodalis-hosted prophage in fly Trypanosoma refractoriness?

Author

Hamidou Soumana, Illiassou, primary, Loriod, Béatrice, additional, Ravel, Sophie, additional, Tchicaya, Bernadette, additional, Simo, Gustave, additional, Rihet, Pascal, additional, and Geiger, Anne, additional

Published
2014
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112. Population genetics of Glossina palpalis palpalis from central African sleeping sickness foci

Author

Melachio, Trésor T., Simo, Gustave, Ravel, Sophie, De Meeus, Thierry, Causse, Sandrine, Solano, Philippe, Lutumba, Pascal, Asonganyi, Tazoacha, Njiokou, Flobert, Melachio, Trésor T., Simo, Gustave, Ravel, Sophie, De Meeus, Thierry, Causse, Sandrine, Solano, Philippe, Lutumba, Pascal, Asonganyi, Tazoacha, and Njiokou, Flobert

Abstract

Background: Glossina palpalis palpalis (Diptera: Glossinidae) is widespread in west Africa, and is the main vector of sleeping sickness in Cameroon as well as in the Bas Congo Province of the Democratic Republic of Congo. However, little is known on the structure of its populations. We investigated G. p. palpalis population genetic structure in five sleeping sickness foci (four in Cameroon, one in Democratic Republic of Congo) using eight microsatellite DNA markers. Results: A strong isolation by distance explains most of the population structure observed in our sampling sites of Cameroon and DRC. The populations here are composed of panmictic subpopulations occupying fairly wide zones with a very strong isolation by distance. Effective population sizes are probably between 20 and 300 individuals and if we assume densities between 120 and 2000 individuals per km2, dispersal distance between reproducing adults and their parents extends between 60 and 300 meters. Conclusions: This first investigation of population genetic structure of G. p. palpalis in Central Africa has evidenced random mating subpopulations over fairly large areas and is thus at variance with that found in West African populations of G. p. palpalis. This study brings new information on the isolation by distance at a macrogeographic scale which in turn brings useful information on how to organise regional tsetse control. Future investigations should be directed at temporal sampling to have more accurate measures of demographic parameters in order to help vector control decision.

Published
2011

119. Genetic structure of Trypanosoma congolense “forest type” circulating in domestic animals and tsetse flies in the South-West region of Cameroon.

Author

Soubgwi Fogue, Pythagore, Njiokou, Flobert, and Simo, Gustave

Abstract

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Published
2017
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124. Adult blood-feeding tsetse flies, trypanosomes, microbiota and the fluctuating environment in sub-Saharan Africa.

Author

Geiger, Anne, Ponton, Fleur, and Simo, Gustave

Subjects
TSETSE-flies, TRYPANOSOMA brucei, TRYPANOSOMIASIS, TROPICAL medicine
Abstract

The tsetse fly vector transmits the protozoan Trypanosoma brucei, responsible for Human African Trypanosomiasis, one of the most neglected tropical diseases. Despite a recent decline in new cases, it is still crucial to develop alternative strategies to combat this disease. Here, we review the literature on the factors that influence trypanosome transmission from the fly vector to its vertebrate host (particularly humans). These factors include climate change effects to pathogen and vector development (in particular climate warming), as well as the distribution of host reservoirs. Finally, we present reports on the relationships between insect vector nutrition, immune function, microbiota and infection, to demonstrate how continuing research on the evolving ecology of these complex systems will help improve control strategies. In the future, such studies will be of increasing importance to understand how vector-borne diseases are spread in a changing world. [ABSTRACT FROM AUTHOR]

Published
2015
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125. The miRNA and mRNA Signatures of Peripheral Blood Cells in Humans Infected with Trypanosoma brucei gambiense.

Author

Leong, Smiths, Simo, Gustave, Camara, Mamadou, Jamonneau, Vincent, Kabore, Jacques, Ilboudo, Hamidou, Bucheton, Bruno, Hoheisel, Jörg D., and Clayton, Christine

Subjects
*TRYPANOSOMA brucei, *MICRORNA, *MESSENGER RNA, *PERIPHERAL nervous system, *BLOOD cells, *CEREBROSPINAL fluid, *COMMUNICABLE diseases
Abstract

Simple, reliable tools for diagnosis of human African Trypanosomiases could ease field surveillance and enhance patient care. In particular, current methods to distinguish patients with (stage II) and without (stage I) brain involvement require samples of cerebrospinal fluid. We describe here an exploratory study to find out whether miRNAs from peripheral blood leukocytes might be useful in diagnosis of human trypanosomiasis, or for determining the stage of the disease. Using microarrays, we measured miRNAs in samples from Trypanosoma brucei gambiense-infected patients (9 stage I, 10 stage II), 8 seronegative parasite-negative controls and 12 seropositive, but parasite-negative subjects. 8 miRNAs (out of 1205 tested) showed significantly lower expression in patients than in seronegative, parasite-negative controls, and 1 showed increased expression. There were no clear differences in miRNAs between patients in different disease stages. The miRNA profiles could not distinguish seropositive, but parasitologically negative samples from controls and results within this group did not correlate with those from the trypanolysis test. Some of the regulated miRNAs, or their predicted mRNA targets, were previously reported changed during other infectious diseases or cancer. We conclude that the changes in miRNA profiles of peripheral blood lymphocytes in human African trypanosomiasis are related to immune activation or inflammation, are probably disease-non-specific, and cannot be used to determine the disease stage. The approach has little promise for diagnostics but might yield information about disease pathology. [ABSTRACT FROM AUTHOR]

Published
2013
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126. The miRNA and mRNA Signatures of Peripheral Blood Cells in Humans Infected with Trypanosoma brucei gambiense.

Author

Leong, Smiths, Simo, Gustave, Camara, Mamadou, Jamonneau, Vincent, Kabore, Jacques, Ilboudo, Hamidou, Bucheton, Bruno, Hoheisel, Jörg D., and Clayton, Christine

Subjects
TRYPANOSOMA brucei, MICRORNA, MESSENGER RNA, PERIPHERAL nervous system, BLOOD cells, CEREBROSPINAL fluid, COMMUNICABLE diseases
Abstract

Simple, reliable tools for diagnosis of human African Trypanosomiases could ease field surveillance and enhance patient care. In particular, current methods to distinguish patients with (stage II) and without (stage I) brain involvement require samples of cerebrospinal fluid. We describe here an exploratory study to find out whether miRNAs from peripheral blood leukocytes might be useful in diagnosis of human trypanosomiasis, or for determining the stage of the disease. Using microarrays, we measured miRNAs in samples from Trypanosoma brucei gambiense-infected patients (9 stage I, 10 stage II), 8 seronegative parasite-negative controls and 12 seropositive, but parasite-negative subjects. 8 miRNAs (out of 1205 tested) showed significantly lower expression in patients than in seronegative, parasite-negative controls, and 1 showed increased expression. There were no clear differences in miRNAs between patients in different disease stages. The miRNA profiles could not distinguish seropositive, but parasitologically negative samples from controls and results within this group did not correlate with those from the trypanolysis test. Some of the regulated miRNAs, or their predicted mRNA targets, were previously reported changed during other infectious diseases or cancer. We conclude that the changes in miRNA profiles of peripheral blood lymphocytes in human African trypanosomiasis are related to immune activation or inflammation, are probably disease-non-specific, and cannot be used to determine the disease stage. The approach has little promise for diagnostics but might yield information about disease pathology. [ABSTRACT FROM AUTHOR]

Published
2013
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127. Molecular identification of Trypanosoma brucei gambiensein naturally infected pigs, dogs and small ruminants confirms domestic animals as potential reservoirs for sleeping sickness in Chad

Author

Vourchakbé, Joël, Tiofack, Zebaze Arnol Auvaker, Kante, Tagueu Sartrien, Mpoame, Mbida, Simo, Gustave, Vourchakbé, Joël, Tiofack, Zebaze Arnol Auvaker, Kante, Tagueu Sartrien, Mpoame, Mbida, and Simo, Gustave

Abstract

Human African trypanosomiasis (HAT) has been targeted for zero transmission to humans by 2030. Animal reservoirs of gambiense-HAT could jeopardize these elimination goals. This study was undertaken to identify potential host reservoirs for Trypanosoma brucei gambienseby detecting its natural infections in domestic animals of Chadian HAT foci. Blood samples were collected from 267 goats, 181 sheep, 154 dogs, and 67 pigs. Rapid diagnostic test (RDT) and capillary tube centrifugation (CTC) were performed to search for trypanosomes. DNA was extracted from the buffy coat, and trypanosomes of the subgenus Trypanozoonas well as T. b. gambiensewere identified by PCR. Of 669 blood samples, 19.4% were positive by RDT and 9.0% by CTC. PCR revealed 150 animals (22.4%) with trypanosomes belonging to Trypanozoon, including 18 (12%) T. b. gambiense. This trypanosome was found in all investigated animal species and all HAT foci. Between animal species or villages, no significant differences were observed in the number of animals harboring T. b. gambienseDNA. Pigs, dogs, sheep and goats appeared to be potential reservoir hosts for T. b. gambiensein Chad. The identification of T. b. gambiensein all animal species of all HAT foci suggests that these animals should be considered when designing new control strategies for sustainable elimination of HAT. Investigations aiming to decrypt their specific role in each epidemiological setting are important to achieve zero transmission of HAT.

Published
2020
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129. Prevalence of Sodalis glossinidiusand different trypanosome species in Glossina palpalis palpalis caught in the Fontem sleeping sickness focus of the southern Cameroon

Author

Kanté Tagueu, Sartrien, Farikou, Oumarou, Njiokou, Flobert, and Simo, Gustave

Abstract

Tsetse flies are the cyclical vector of human and animal African trypanosomiasis. To improve vector control in order to achieve the elimination of human African trypanosomiasis (HAT) and boost the control of animal diseases, investigations have been undertaken on the tripartite association between tsetse, trypanosome, and symbionts. It is in this light that Sodalis glossinidiusand different trypanosomes were identified in Glossina palpalis palpaliscaught in Fontem in southern Cameroon. For this study, DNA was extracted from whole flies, and S. glossinidiusand different trypanosome species were identified by polymerase chain reaction (PCR). Statistical analyses were performed to compare the trypanosome and S. glossinidiusinfection rates and to look for an association between these microorganisms. Of the 274 G. p. palpaliscaught, 3.3% (9/274) were teneral. About 35% (96/274) of these flies harbored S. glossinidius.Of the 265 non-teneral flies, 37.7% were infected by trypanosomes. The infection rates of Trypanosoma congolense “forest type” and Trypanosoma vivaxwere 26.04% and 18.11%, respectively. About 6.41% of tsetse harbored mixed infections of T. congolenseand T. vivax. Of the 69 tsetse with T. congolenseinfections, 33.33% (23/69) harbored S. glossinidiuswhile 71.86% (69/96) of flies harboring S. glossinidiuswere not infected by trypanosomes. No association was observed between S. glossinidiusand trypanosome infections. Some wild tsetse harbor S. glossinidiusand trypanosomes, while others have no infection or are infected by only one of these microorganisms. We conclude that the presence of S. glossinidiusdoes not favor trypanosome infections in G. p. palpalisof the Fontem focus.

Published
2018
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130. Genetic structure of Trypanosoma congolense“forest type” circulating in domestic animals and tsetse flies in the South-West region of Cameroon

Author

Fogue, Pythagore Soubgwi, Njiokou, Flobert, and Simo, Gustave

Abstract

Despite the economic impact of trypanosome infections, few investigations have been undertaken on the population genetics and transmission dynamics of animal trypanosomes. In this study, microsatellite markers were used to investigate the population genetics of Trypanosoma congolense“forest type”, with the ultimate goal of understanding its transmission dynamics between tsetse flies and domestic animals. Blood samples were collected from pigs, sheep, goats and dogs in five villages in Fontem, South-West region of Cameroon. In these villages, tsetse were captured, dissected and their mid-guts collected. DNA was extracted from blood and tsetse mid-guts and specific primers were used to identify T. congolense“forest type”. All positive samples were genetically characterized with seven microsatellite markers. Genetic analyses were performed on samples showing single infections of T. congolense“forest type”. Of the 299 blood samples, 137 (46%) were infected by T. congolense“forest type”. About 3% (54/1596) of tsetse fly mid-guts were infected by T. congolense“forest type”. Of 182 samples with T. congolense“forest type”, 52 were excluded from the genetic analysis. The genetic analysis on the 130 remaining samples revealed polymorphism within and between subpopulations of the target trypanosome. The dendrogram of genetic similarities was subdivided into two clusters and three sub-clusters, indicating one major and several minor genotypes of T. congolense“forest type” in tsetse and domestic animals. The low FSTvalues suggest low genetic differentiation and no sub-structuration within subpopulations. The same T. congolensegenotypes appear to circulate in tsetse and domestic animals.

Published
2017
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131. Use of Antigen Rapid Diagnostic Test for Detection of COVID-19 Cases in University Settings in Cameroon.

Author

Monamele CG, Messanga L, Njintang Yanou N, Simo G, Eboumbou Moukoko CE, Moumbeket H, Modyinyi AF, Mohamadou R, Foupouapouognigni Y, Abdou A, Akoachere JTK, Dani P, Hoppe A, and Njouom R

Abstract

Robust testing strategies are an essential aspect of COVID-19 pandemic preparedness and response. In 2022, most regions of Cameroon were still below the WHO's recommended level of 10 COVID-19 tests per 10,000 population. This study aimed to detect SARS-CoV-2 cases in university settings in Cameroon using antigen rapid diagnostic tests (Ag-RDTs) to increase national testing capacity and assess the knowledge, attitudes, and practices of this population regarding COVID-19 infection. Six universities in Buea, Douala, Dschang, Maroua, Ngaoundere, and Yaounde participated in this study from June to October 2022. Nasopharyngeal swabs were collected from participants and tested for COVID-19 using Ag-RDTs. For all positive cases, high-risk contacts were also tested by Ag-RDT. Participants were administered a structured questionnaire to assess their knowledge, attitudes, and practices regarding COVID-19. A total of 7,006 participants were recruited, and 54 (0.8%) were positive for SARS-CoV-2. Among close contacts, three of 62 (4.8%) tested positive. The University of Maroua was the only site to consistently report satisfactory testing capacity, achieving the study target of 30 tests/10,000 in 94.1% of cases. Participants' knowledge of COVID-19 was moderate to good (≥50%). However, 28% were unsure about the effectiveness of the COVID-19 vaccine. Two main factors were identified that could facilitate the spread of SARS-CoV-2 in university settings, namely the lack of restrictions on entering campus without a mask (36%) and the non-respect of social distancing on campus (42.7%). The results of this study will guide future policies to better control diseases with epidemic or pandemic potential by targeting educational institutions.

Published
2024
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132. An assessment of the genomic structural variation landscape in Sub-Saharan African populations.

Author

Wiener E, Cottino L, Botha G, Nyangiri O, Noyes H, McLeod A, Jakubosky D, Adebamowo C, Awadalla P, Landouré G, Matshaba M, Matovu E, Ramsay M, Simo G, Simuunza M, Tiemessen C, Wonkam A, Sahibdeen V, Krause A, Lombard Z, and Hazelhurst S

Abstract

Structural variants are responsible for a large part of genomic variation between individuals and play a role in both common and rare diseases. Databases cataloguing structural variants notably do not represent the full spectrum of global diversity, particularly missing information from most African populations. To address this representation gap, we analysed 1,091 high-coverage African genomes, 545 of which are public data sets, and 546 which have been analysed for structural variants for the first time. Variants were called using five different tools and datasets merged and jointly called using SURVIVOR. We identified 67,795 structural variants throughout the genome, with 10,421 genes having at least one variant. Using a conservative overlap in merged data, 6,414 of the structural variants (9.5%) are novel compared to the Database of Genomic Variants. This study contributes to knowledge of the landscape of structural variant diversity in Africa and presents a reliable dataset for potential applications in population genetics and health-related research., Competing Interests: Additional Declarations: There is NO Competing Interest.

Published
2024
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133. Candidate gene family-based and case-control studies of susceptibility to high Schistosoma mansoni worm burden in African children: a protocol.

Author

Nyangiri OA, Edwige SA, Koffi M, Mewamba E, Simo G, Namulondo J, Mulindwa J, Nassuuna J, Elliott A, Karume K, Mumba D, Corstjens PLAM, Casacuberta-Partal M, van Dam GJ, Bucheton B, Noyes H, and Matovu E

Abstract

Background: Approximately 25% of the risk of Schistosoma mansoni is associated with host genetic variation. We will test 24 candidate genes, mainly in the T h 2 and T h 17 pathways, for association with S. mansoni infection intensity in four African countries, using family based and case-control approaches. Methods: Children aged 5-15 years will be recruited in S. mansoni endemic areas of Ivory Coast, Cameroon, Uganda and the Democratic Republic of Congo (DRC). We will use family based (study 1) and case-control (study 2) designs. Study 1 will take place in Ivory Coast, Cameroon, Uganda and the DRC. We aim to recruit 100 high worm burden families from each country except Uganda, where a previous study recruited at least 40 families. For phenotyping, cases will be defined as the 20% of children in each community with heaviest worm burdens as measured by the circulating cathodic antigen (CCA) assay. Study 2 will take place in Uganda. We will recruit 500 children in a highly endemic community. For phenotyping, cases will be defined as the 20% of children with heaviest worm burdens as measured by the CAA assay, while controls will be the 20% of infected children with the lightest worm burdens. Deoxyribonucleic acid (DNA) will be genotyped on the Illumina H3Africa SNP (single nucleotide polymorphisms) chip and genotypes will be converted to sets of haplotypes that span the gene region for analysis. We have selected 24 genes for genotyping that are mainly in the Th2 and Th17 pathways and that have variants that have been demonstrated to be or could be associated with Schistosoma infection intensity.   Analysis: In the family-based design, we will identify SNP haplotypes disproportionately transmitted to children with high worm burden. Case-control analysis will detect overrepresentation of haplotypes in extreme phenotypes with correction for relatedness by using whole genome principal components., Competing Interests: No competing interests were disclosed., (Copyright: © 2021 Nyangiri OA et al.)

Published
2021
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134. G6PD variant distribution in sub-Saharan Africa and potential risks of using chloroquine/hydroxychloroquine based treatments for COVID-19.

Author

da Rocha J, Othman H, Tiemessen CT, Botha G, Ramsay M, Masimirembwa C, Adebamowo C, Choudhury A, Brandenburg JT, Matshaba M, Simo G, Gamo FJ, and Hazelhurst S

Abstract

Chloroquine/hydroxychloroquine have been proposed as potential treatments for COVID-19. These drugs have warning labels for use in individuals with glucose-6-phosphate dehydrogenase (G6PD) deficiency. Analysis of whole-genome sequence data of 458 individuals from sub-Saharan Africa showed significant G6PD variation across the continent. We identified nine variants, of which four are potentially deleterious to G6PD function, and one (rs1050828) that is known to cause G6PD deficiency. We supplemented data for the rs1050828 variant with genotype array data from over 11,000 Africans. Although this variant is common in Africans overall, large allele frequency differences exist between sub-populations. African sub-populations in the same country can show significant differences in allele frequency (e.g. 16.0% in Tsonga vs 0.8% in Xhosa, both in South Africa, ρ=2.4×10 -3 ). The high prevalence of variants in the G6PD gene found in this analysis suggests that it may be a significant interaction factor in clinical trials of chloroquine and hydrochloroquine for treatment of COVID-19 in Africans.

Published
2020
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135. A polymorphism in the haptoglobin, haptoglobin related protein locus is associated with risk of human sleeping sickness within Cameroonian populations.

Author

Ofon E, Noyes H, Mulindwa J, Ilboudo H, Simuunza M, Ebo'o V, Njiokou F, Koffi M, Bucheton B, Fogue P, Hertz-Fowler C, MacLeod A, and Simo G

Subjects
Adolescent, Adult, Aged, Aged, 80 and over, Alleles, Asymptomatic Diseases epidemiology, Cameroon epidemiology, Case-Control Studies, Child, Female, Gene Frequency, Genetic Association Studies, Genotype, Humans, Male, Middle Aged, Neglected Diseases epidemiology, Neglected Diseases ethnology, Neglected Diseases genetics, Neglected Diseases parasitology, Risk Factors, Trypanosoma brucei gambiense isolation & purification, Trypanosomiasis, African blood, Trypanosomiasis, African epidemiology, Young Adult, Antigens, Neoplasm genetics, Genetic Predisposition to Disease, Haptoglobins genetics, Polymorphism, Single Nucleotide, Trypanosomiasis, African ethnology, Trypanosomiasis, African genetics
Abstract

Background: Human African Trypanosomiasis (HAT) is a neglected disease targeted for elimination as a public health problem by 2020. Elimination requires a better understanding of the epidemiology and clinical evolution of HAT. In addition to the classical clinical evolution of HAT, asymptomatic carriers and spontaneous cure have been reported in West Africa. A genetic component to human susceptibility to HAT has been suggested to explain these newly observed responses to infection. In order to test for genetic associations with infection response, genetic polymorphism in 17 genes were tested (APOL1, IL1B, IL4, IL4R, IL6, IL8, IL12B, IL12RB1, IL10, TNFA, INFG, MIF, HLA-G, HLA-A, HP, HPR and CFH)., Methodology: A case-control study was performed on 180 blood samples collected from 56 cases and 124 controls from Cameroon. DNA was extracted from blood samples. After quality control, 25 samples (24 controls and 1 case) were eliminated. The genotyping undertaken on 155 individuals including 55 cases and 100 controls were investigated at 96 loci (88 SNPs and 8 indels) located on 17 genes. Associations between these loci and HAT were estimated via a case-control association test., Results: Analyses of 64 SNPs and 4 indels out of 96 identified in the selected genes reveal that the minor allele (T) of rs8062041 in haptoglobin (HP) appeared to be protective against HAT (p = 0.0002395, OR 0.359 (CI95 [0.204-0.6319])); indicating higher frequency in cases compared to controls. This minor allele with adjusted p value of 0.0163 is associated with a lower risk (protective effect) of developing sleeping sickness., Conclusion: The haptoglobin related protein HPR and HP are tightly linked and both are duplicated in some people and may lead to higher activity. This increased production could be responsible of the protection associated with rs8062041 even though this SNP is within HP.

Published
2017
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136. Research capacity. Enabling the genomic revolution in Africa.

Author

Rotimi C, Abayomi A, Abimiku A, Adabayeri VM, Adebamowo C, Adebiyi E, Ademola AD, Adeyemo A, Adu D, Affolabi D, Agongo G, Ajayi S, Akarolo-Anthony S, Akinyemi R, Akpalu A, Alberts M, Alonso Betancourt O, Alzohairy AM, Ameni G, Amodu O, Anabwani G, Andersen K, Arogundade F, Arulogun O, Asogun D, Bakare R, Balde N, Baniecki ML, Beiswanger C, Benkahla A, Bethke L, Boehnke M, Boima V, Brandful J, Brooks AI, Brosius FC, Brown C, Bucheton B, Burke DT, Burnett BG, Carrington-Lawrence S, Carstens N, Chisi J, Christoffels A, Cooper R, Cordell H, Crowther N, Croxton T, de Vries J, Derr L, Donkor P, Doumbia S, Duncanson A, Ekem I, El Sayed A, Engel ME, Enyaru JC, Everett D, Fadlelmola FM, Fakunle E, Fischbeck KH, Fischer A, Folarin O, Gamieldien J, Garry RF, Gaseitsiwe S, Gbadegesin R, Ghansah A, Giovanni M, Goesbeck P, Gomez-Olive FX, Grant DS, Grewal R, Guyer M, Hanchard NA, Happi CT, Hazelhurst S, Hennig BJ, Hertz- C, Fowler, Hide W, Hilderbrandt F, Hugo-Hamman C, Ibrahim ME, James R, Jaufeerally-Fakim Y, Jenkins C, Jentsch U, Jiang PP, Joloba M, Jongeneel V, Joubert F, Kader M, Kahn K, Kaleebu P, Kapiga SH, Kassim SK, Kasvosve I, Kayondo J, Keavney B, Kekitiinwa A, Khan SH, Kimmel P, King MC, Kleta R, Koffi M, Kopp J, Kretzler M, Kumuthini J, Kyobe S, Kyobutungi C, Lackland DT, Lacourciere KA, Landouré G, Lawlor R, Lehner T, Lesosky M, Levitt N, Littler K, Lombard Z, Loring JF, Lyantagaye S, Macleod A, Madden EB, Mahomva CR, Makani J, Mamven M, Marape M, Mardon G, Marshall P, Martin DP, Masiga D, Mason R, Mate-Kole M, Matovu E, Mayige M, Mayosi BM, Mbanya JC, McCurdy SA, McCarthy MI, McIlleron H, Mc'Ligeyo SO, Merle C, Mocumbi AO, Mondo C, Moran JV, Motala A, Moxey-Mims M, Mpoloka WS, Msefula CL, Mthiyane T, Mulder N, Mulugeta Gh, Mumba D, Musuku J, Nagdee M, Nash O, Ndiaye D, Nguyen AQ, Nicol M, Nkomazana O, Norris S, Nsangi B, Nyarko A, Nyirenda M, Obe E, Obiakor R, Oduro A, Ofori-Acquah SF, Ogah O, Ogendo S, Ohene-Frempong K, Ojo A, Olanrewaju T, Oli J, Osafo C, Ouwe Missi Oukem-Boyer O, Ovbiagele B, Owen A, Owolabi MO, Owolabi L, Owusu-Dabo E, Pare G, Parekh R, Patterton HG, Penno MB, Peterson J, Pieper R, Plange-Rhule J, Pollak M, Puzak J, Ramesar RS, Ramsay M, Rasooly R, Reddy S, Sabeti PC, Sagoe K, Salako T, Samassékou O, Sandhu MS, Sankoh O, Sarfo FS, Sarr M, Shaboodien G, Sidibe I, Simo G, Simuunza M, Smeeth L, Sobngwi E, Soodyall H, Sorgho H, Sow Bah O, Srinivasan S, Stein DJ, Susser ES, Swanepoel C, Tangwa G, Tareila A, Tastan Bishop O, Tayo B, Tiffin N, Tinto H, Tobin E, Tollman SM, Traoré M, Treadwell MJ, Troyer J, Tsimako-Johnstone M, Tukei V, Ulasi I, Ulenga N, van Rooyen B, Wachinou AP, Waddy SP, Wade A, Wayengera M, Whitworth J, Wideroff L, Winkler CA, Winnicki S, Wonkam A, Yewondwos M, sen T, Yozwiak N, and Zar H

Subjects
Africa, England, Genetics, Medical trends, Health, Humans, National Institutes of Health (U.S.), United States, Disease genetics, Genome-Wide Association Study trends, Genomics trends
Published
2014
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137. The miRNA and mRNA Signatures of Peripheral Blood Cells in Humans Infected with Trypanosoma brucei gambiense.

Author

Lueong S, Leong S, Simo G, Camara M, Jamonneau V, Kabore J, Ilboudo H, Bucheton B, Hoheisel JD, and Clayton C

Subjects
Biomarkers blood, Gene Expression Profiling, Humans, Leukocytes metabolism, Microarray Analysis, Models, Molecular, Real-Time Polymerase Chain Reaction, Transcriptome, MicroRNAs blood, RNA, Messenger blood, Trypanosoma brucei gambiense, Trypanosomiasis, African blood
Abstract

Simple, reliable tools for diagnosis of human African Trypanosomiases could ease field surveillance and enhance patient care. In particular, current methods to distinguish patients with (stage II) and without (stage I) brain involvement require samples of cerebrospinal fluid. We describe here an exploratory study to find out whether miRNAs from peripheral blood leukocytes might be useful in diagnosis of human trypanosomiasis, or for determining the stage of the disease. Using microarrays, we measured miRNAs in samples from Trypanosoma brucei gambiense-infected patients (9 stage I, 10 stage II), 8 seronegative parasite-negative controls and 12 seropositive, but parasite-negative subjects. 8 miRNAs (out of 1205 tested) showed significantly lower expression in patients than in seronegative, parasite-negative controls, and 1 showed increased expression. There were no clear differences in miRNAs between patients in different disease stages. The miRNA profiles could not distinguish seropositive, but parasitologically negative samples from controls and results within this group did not correlate with those from the trypanolysis test. Some of the regulated miRNAs, or their predicted mRNA targets, were previously reported changed during other infectious diseases or cancer. We conclude that the changes in miRNA profiles of peripheral blood lymphocytes in human African trypanosomiasis are related to immune activation or inflammation, are probably disease-non-specific, and cannot be used to determine the disease stage. The approach has little promise for diagnostics but might yield information about disease pathology.

Published
2013
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138. The bacterial flora of tsetse fly midgut and its effect on trypanosome transmission.

Author

Soumana IH, Simo G, Njiokou F, Tchicaya B, Abd-Alla AM, Cuny G, and Geiger A

Subjects
Animals, Cattle, Humans, Insect Vectors microbiology, Symbiosis, Trypanosoma parasitology, Trypanosomiasis, African microbiology, Intestines microbiology, Trypanosomiasis, African transmission, Tsetse Flies microbiology
Abstract

The tsetse fly, Glossina palpalis is a vector of the trypanosome that causes sleeping sickness in humans and nagana in cattle along with associated human health problems and massive economic losses. The insect is also known to carry a number of symbionts such as Sodalis, Wigglesworthia, Wolbachia whose effects on the physiology of the insect have been studied in depth. However, effects of other bacterial flora on the physiology of the host and vector competence have received little attention. Epidemiological studies on tsetse fly populations from different geographic sites revealed the presence of a variety of bacteria in the midgut. The most common of the flora belong to the genera Entrobacter (most common), Enterococcus, and Acinetobacter. It was a little surprising to find such diversity in the tsetse midgut since the insect is monophagous consuming vertebrate blood only. Diversity of bacteria is normally associated with polyphagous insects. In contrast to the symbionts, the role of resident midgut bacterial flora on the physiology of the fly and vector competence remains to be elucidated. With regard, Sodalis glossinidius, our data showed that flies harbouring this symbiont have three times greater probability of being infected by trypanosomes than flies without the symbiont. The data delineated in these studies under score the need to carry out detailed investigations on the role of resident bacteria on the physiology of the fly and vector competence., (Copyright © 2013 International Atomic Energy Agency. Published by Elsevier Inc. All rights reserved.)

Published
2013
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139. Characterization of sleeping sickness transmission sites in rural and periurban areas of Kinshasa (République Démocratique du Congo).

Author

Grébaut P, Bena JM, Manzambi EZ, Mansinsa P, Khande V, Ollivier G, Cuny G, and Simo G

Subjects
Animals, Democratic Republic of the Congo, Female, Geographic Information Systems, Humans, Logistic Models, Risk Factors, Rural Population, Seasons, Trypanosoma brucei gambiense, Urban Population, Environment, Insect Vectors growth & development, Insect Vectors parasitology, Trypanosomiasis, African transmission, Tsetse Flies growth & development
Abstract

To characterize the potential transmission sites of sleeping sickness in Kinshasa, two entomologic surveys were carried out during the dry and the rainy seasons in rural and periurban areas of Kinshasa in 2005. About 610 pyramidal traps were set up, and 897 Glossina fuscipes quanzensis were captured. Environmental and biologic factors were reported, and relationships between these factors were evaluated using logistic regression and multiple correspondence analysis. The biologic factors (the presence of tsetse flies, human blood meals, and teneral flies) were progressively accumulated at each capture site to permit the characterization of the sleeping sickness transmission risk. The dry season was found to be a more favorable period for the disease transmission than the rainy season. Moreover, the landscapes characterized by the presence of argillaceous soils, raised ground cover with forest residues and rivers, were identified as types of environments with greater risk of sleeping sickness transmission. Pig breeding appeared as an important factor increasing the disease transmission. If vector control is continuously performed along rivers segments at high risk, the transmission of sleeping sickness in rural and periurban areas of Kinshasa will considerably decrease.

Published
2009
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