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29 results on '"Tchoupo, Micareme"'

14. Xeno-monitoring of molecular drivers of artemisinin and partner drug resistance in P. falciparum populations in malaria vectors across Cameroon

Author

Nkemngo, Francis N., primary, Mugenzi, Leon M.J., additional, Tchouakui, Magellan, additional, Nguiffo-Nguete, Daniel, additional, Wondji, Murielle J., additional, Mbakam, Bertrand, additional, Tchoupo, Micareme, additional, Ndo, Cyrille, additional, Wanji, Samuel, additional, and Wondji, Charles S., additional

Published
2022
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16. Additional file 1 of Escalating pyrethroid resistance in two major malaria vectors Anopheles funestus and Anopheles gambiae (s.l.) in Atatam, Southern Ghana

Author

Mugenzi, Leon M. J., Akosah-Brempong, Gabriel, Tchouakui, Magellan, Menze, Benjamin D., Tekoh, Theofelix A., Tchoupo, Micareme, Nkemngo, Francis N., Wondji, Murielle J., Nwaefuna, Ekene K., Osae, Michael, and Wondji, Charles S.

Abstract

Additional file 1: Table S1. Frequency of target site mutations characterized in Anopheles gambiae (s.l.) F0 from Atatam. Table S2. Frequency of L119F-GSTe2 resistance markers among dead and alive An. funestus exposed to DDT, deltamethrin 1x, 5x and 10x. Table S3. Differential expression of metabolic resistance genes among F1 Deltamethrin 1X, 5x, 10x and unexposed mosquitoes from Atatam compared with the FANG susceptible strain. Table S4. Differential expression of metabolic and cuticular resistance genes among the An. gambiae sl population from Atatam as compared with the Kisumu susceptible strain.

Published
2022
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17. Additional file 1 of Marked aggravation of pyrethroid resistance in major malaria vectors in Malawi between 2014 and 2021 is partly linked with increased expression of P450 alleles

Author

Menze, Benjamin D., Tchouakui, Magellan, Mugenzi, Leon M. J., Tchapga, Williams, Tchoupo, Micareme, Wondji, Murielle J., Chiumia, Martin, Mzilahowa, Themba, and Wondji, Charles S.

Abstract

Additional file 1: Table S1. Household indices and brand nets from the collection sites.

Published
2022
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20. Multiple insecticide resistance and Plasmodium infection in the principal malaria vectors Anopheles funestus and Anopheles gambiae in a forested locality close to the Yaoundé airport, Cameroon

Author

Nkemngo, Francis N., primary, Mugenzi, Leon M. J., additional, Terence, Ebai, additional, Niang, Abdoulaye, additional, Wondji, Murielle J., additional, Tchoupo, Micareme, additional, Nguete, Nguiffo D., additional, Tchapga, Williams, additional, Irving, Helen, additional, Ntabi, Jacques D. M., additional, Agonhossou, Romuald, additional, Boussougou-Sambe, Terence S., additional, Akoton, Romaric B., additional, Koukouikila-Koussounda, Felix, additional, Pinilla, Yudi T., additional, Ntoumi, Francine, additional, Djogbenou, Luc S., additional, Ghogomu, Stephen M., additional, Ndo, Cyrille, additional, Adegnika, Ayola A., additional, Borrmann, Steffen, additional, and Wondji, Charles S., additional

Published
2020
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21. A 6.5‐kb intergenic structural variation enhances P450‐mediated resistance to pyrethroids in malaria vectors lowering bed net efficacy

Author

Mugenzi, Leon M. J., primary, Menze, Benjamin D., additional, Tchouakui, Magellan, additional, Wondji, Murielle J., additional, Irving, Helen, additional, Tchoupo, Micareme, additional, Hearn, Jack, additional, Weedall, Gareth D., additional, Riveron, Jacob M., additional, Cho‐Ngwa, Fidelis, additional, and Wondji, Charles S., additional

Published
2020
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22. Elevated Plasmodium sporozoite infection and multiple insecticide resistance in the principal malaria vectors Anopheles funestus and Anopheles gambiae in a forested locality close to the Yaoundé airport, Cameroon

Author

Nkemngo, Francis N., primary, Mugenzi, Leon M. J., additional, Terence, Ebai, additional, Niang, Abdoulaye, additional, Wondji, Murielle J., additional, Tchoupo, Micareme, additional, Nguete, Nguiffo D., additional, Tchapga, Williams, additional, Irving, Helen, additional, Ntabi, Jacques D. M., additional, Agonhossou, Romuald, additional, Boussougou-Sambe, Terence S., additional, Akoton, Romaric B., additional, Koukouikila-Koussounda, Felix, additional, Pinilla, Yudi T., additional, Ntoumi, Francine, additional, Djogbenou, Luc S., additional, Ghogomu, Stephen M., additional, Ndo, Cyrille, additional, Adegnika, Ayola A., additional, Borrmann, Steffen, additional, and Wondji, Charles S., additional

Published
2020
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23. A 6.5kb intergenic structural variation enhances P450-mediated resistance to pyrethroids in malaria vectors lowering bed net efficacy

Author

Mugenzi, Leon M.J., primary, Menze, Benjamin D., additional, Tchouakui, Magellan, additional, Wondji, Murielle J., additional, Irving, Helen, additional, Tchoupo, Micareme, additional, Hearn, Jack, additional, Weedall, Gareth D., additional, Riveron, Jacob M., additional, Cho-Ngwa, Fidelis, additional, and Wondji, Charles S., additional

Published
2020
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24. Elevated Plasmodium infection and multiple insecticide resistance in the principal malaria vectors Anopheles funestus and Anopheles gambiae in a forested locality close to the airport of Yaoundé, the Capital city of Cameroon

Author

Nongley, Nkemngo Francis, primary, Mbugulize, Jean Leon Mugenzi, additional, Terence, Ebai, additional, Niang, Abdoulaye, additional, Wondji, Murielle, additional, Tchoupo, Micareme, additional, Nguete, Daniel Nguiffo, additional, Tchapga, Williams, additional, Irving, Helen, additional, Ghogomu, Stephen M., additional, Ndo, Cyrille, additional, Consortium, COMAL, additional, Borrmann, Steffen, additional, and Wondji, Charles S., additional

Published
2020
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25. An Experimental Hut Evaluation of PBO-Based and Pyrethroid-Only Nets against the Malaria Vector Anopheles funestus Reveals a Loss of Bed Nets Efficacy Associated with GSTe2 Metabolic Resistance

Author

Menze, Benjamin D., primary, Kouamo, Mersimine F., additional, Wondji, Murielle J., additional, Tchapga, Williams, additional, Tchoupo, Micareme, additional, Kusimo, Michael O., additional, Mouhamadou, Chouaibou S., additional, Riveron, Jacob M., additional, and Wondji, Charles S., additional

Published
2020
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26. Escalation of Pyrethroid Resistance in the Malaria Vector Anopheles funestus Induces a Loss of Efficacy of Piperonyl Butoxide–Based Insecticide-Treated Nets in Mozambique

Author

Riveron, Jacob M, primary, Huijben, Silvie, additional, Tchapga, Williams, additional, Tchouakui, Magellan, additional, Wondji, Murielle J, additional, Tchoupo, Micareme, additional, Irving, Helen, additional, Cuamba, Nelson, additional, Maquina, Mara, additional, Paaijmans, Krijn, additional, and Wondji, Charles S, additional

Published
2019
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28. A cytochrome P450 allele confers pyrethroid resistance on a major African malaria vector, reducing insecticide-treated bednet efficacy.

Author

Weedall, Gareth D., Mugenzi, Leon M. J., Menze, Benjamin D., Tchouakui, Magellan, Ibrahim, Sulaiman S., Amvongo-Adjia, Nathalie, Irving, Helen, Wondji, Murielle J., Tchoupo, Micareme, Djouaka, Rousseau, Riveron, Jacob M., and Wondji, Charles S.

Subjects
CYTOCHROME P-450, PYRETHROIDS, INSECTICIDE resistance, MOSQUITO vectors, ANOPHELES funestus, MALARIA
Abstract

A cytochrome P450 DNA marker in a major mosquito vector of malaria indicates that pyrethroid resistance reduces bednet efficacy. Tracking insecticide resistance: Malaria prevention relies extensively on mosquito control using insecticide-treated bednets. However, insecticide resistance in mosquito vectors of malaria threatens control of this disease. In a new study, Weedall et al. detected the major genes conferring insecticide resistance on the Anopheles mosquito vector of malaria in Africa. They found a DNA marker in a gene (cytochrome P450) encoding an enzyme that breaks down the insecticides used for treating bednets. The authors then designed a simple test allowing this resistance to be tracked and showed that mosquitoes carrying this resistance marker were better able to survive and to take a blood meal after exposure to insecticide-treated bednets in a field hut study in Cameroon. Metabolic resistance to insecticides such as pyrethroids in mosquito vectors threatens control of malaria in Africa. Unless it is managed, recent gains in reducing malaria transmission could be lost. To improve monitoring and assess the impact of insecticide resistance on malaria control interventions, we elucidated the molecular basis of pyrethroid resistance in the major African malaria vector, Anopheles funestus. We showed that a single cytochrome P450 allele (CYP6P9a_R) in A. funestus reduced the efficacy of insecticide-treated bednets for preventing transmission of malaria in southern Africa. Expression of key insecticide resistance genes was detected in populations of this mosquito vector throughout Africa but varied according to the region. Signatures of selection and adaptive evolutionary traits including structural polymorphisms and cis-regulatory transcription factor binding sites were detected with evidence of selection due to the scale-up of insecticide-treated bednet use. A cis-regulatory polymorphism driving the overexpression of the major resistance gene CYP6P9a allowed us to design a DNA-based assay for cytochrome P450–mediated resistance to pyrethroid insecticides. Using this assay, we tracked the spread of pyrethroid resistance and found that it was almost fixed in mosquitoes from southern Africa but was absent from mosquitoes collected elsewhere in Africa. Furthermore, a field study in experimental huts in Cameroon demonstrated that mosquitoes carrying the resistance CYP6P9a_R allele survived and succeeded in blood feeding more often than did mosquitoes that lacked this allele. Our findings highlight the need to introduce a new generation of insecticide-treated bednets for malaria control that do not rely on pyrethroid insecticides. [ABSTRACT FROM AUTHOR]

Published
2019
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29. Contrasting patterns of Asaia association with Plasmodium falciparum between field-collected Anopheles gambiae and Anopheles coluzzii from Cameroon.

Author

Tatsinkou Maffo CG, Sandeu MM, Tchoupo M, Dondji Kamga FM, Mugenzi LMJ, Njiokou F, Hughes GL, and Wondji CS

Abstract

The widespread prevalence of Asaia in mosquitoes makes it a potential candidate for paratrangenic control in Anopheles . To better understand whether this bacterium could be used for malaria control, we quantified Asaia in An. gambiae s.l populations in malaria endemic regions examining co-infection with Plasmodium falciparum . Adult Anopheles mosquitoes were collected across two different eco-geographical localities in Cameroon, during both the dry and wet seasons. DNA was extracted from whole individual mosquitoes, and real time-qPCR amplification of the 16S ribosomal RNA was used to quantify Asaia in both An. gambiae and An. coluzzii samples. We also detected and quantified P. falciparum infection in the same mosquitoes. The density of Asaia was successfully quantified in a total of 864 field mosquitoes, comprising of 439 An. gambiae from Bankeng and 424 An. coluzii collected from Gounougou. Interestingly, a higher prevalence of Asaia in An. gambiae (88.3%) compared to An. coluzzii (80.9%) was observed. Moreover, the density of Asaia in both species was significantly affected by seasonal changes in the two localities. Furthermore, a significant difference between the infection densities of Asaia and the Plasmodium infection status in the two species was recorded. However, no correlation was observed between the number of Asaia and P. falciparum infections. This study provides evidence that naturally occurring Asaia infection is not correlated to P. falciparum development within An. gambiae and An. coluzzii . Nevertheless, further studies incorporating experimental infections are required to better investigate the correlation between Anopheles mosquitoes, Asaia, and Plasmodium .IMPORTANCEThe symbiont Asaia has emerged as a promising candidate for paratransgenic control of malaria, but further analysis of its biology and genetics across Africa is necessary. In this study, we investigated and quantified the influence of Asaia in naturally infected An. gambiae s.l . populations with the malaria parasite Plasmodium falciparum . Genomic DNA was extracted from whole individual mosquitoes collected from two localities, and Asaia was quantified using real-time qPCR by amplification of the 16S ribosomal RNA gene. We also detected and quantified Plasmodium falciparum infection in the same mosquitoes and established the correlation between Asaia and Plasmodium coinfection. This study provides evidence that naturally occurring Asaia infection is not correlated with P. falciparum development within An. gambiae and An. coluzzii mosquitoes.

Published
2024
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