logo
Science Portal
Copyright © Médecins Sans Frontières
v2.1.5153.produseast1
About MSF Science Portal
About
Contact Us
Frequently Asked Questions (FAQs)
Privacy Policy
Terms of Use
Copyright © Médecins Sans Frontières
v2.1.5153.produseast1
Journal Article
|Research

Investigating molecular mechanisms of insecticide resistance in the Eastern Democratic Republic of the Congo

Bandibabone JB, McLoughlin C, Ndo S, Bantuzeko C, Byabushi V, Jeanberckmans M, Guardiola M, Zawadi B, Diabate A, Prudhomme J, Walker T, Messenger LA
Download

Similar Content
Loading...
Loading...
Loading...
Investigating molecular mechanisms of insecticide resistance in the Eastern Democratic Republic of the Congo | Journal Article / Research | MSF Science Portal
Abstract
BACKGROUND
Malaria vector control in the Democratic Republic of the Congo is plagued by several major challenges, including inadequate infrastructure, lack of access to health care systems and preventative measures, and more recently the widespread emergence of insecticide resistance among Anopheles mosquitoes. Across 26 provinces, insecticide resistance has been reported from multiple sentinel sites. However, to date, investigation of molecular resistance mechanisms among Anopheles vector populations in DRC has been more limited.

METHODS
Adult Anopheles gambiae sensu lato (s.l.) and Anopheles funestus s.l. were collected from two sites in Sud-Kivu province and one site in Haut-Uélé province and PCR-screened for the presence of 11 resistance mutations, to provide additional information on frequency of resistance mechanisms in the eastern DRC, and to critically evaluate the utility of these markers for prospective country-wide resistance monitoring.

RESULTS
L1014F-kdr and L1014S-kdr were present in 75.9% and 56.7% of An. gambiae s.l. screened, respectively, with some individuals harbouring both resistant alleles. Across the three study sites, L43F-CYP4J5 allele frequency ranged from 0.42 to 0.52, with evidence for ongoing selection. G119S-ace1 was also identified in all sites but at lower levels. A triple mutant haplotype (comprising the point mutation CYP6P4-I236M, the insertion of a partial Zanzibar-like transposable element and duplication of CYP6AA1) was present at high frequencies. In An. funestus s.l. cis-regulatory polymorphisms in CYP6P9a and CYP6P9b were detected, with allele frequencies ranging from 0.82 to 0.98 and 0.65 to 0.83, respectively.

CONCLUSIONS
This study screened the most up-to-date panel of DNA-based resistance markers in An. gambiae s.l. and An. funestus s.l. from the eastern DRC, where resistance data is lacking. Several new candidate markers (CYP4J5, G119S-ace1, the triple mutant, CYP6P9a and CYP6P9b) were identified, which are diagnostic of resistance to major insecticide classes, and warrant future, larger-scale monitoring in the DRC to inform vector control decisions by the National Malaria Control Programme.

Countries

Democratic Republic of Congo

Subject Area

malariavector borne diseases

Languages

French
DOI
10.1186/s12936-021-04002-8
Published Date
14 Dec 2021
PubMed ID
34906124
Journal
Malaria Journal
Volume | Issue | Pages
Volume 20, Issue 1, Pages 464
Dimensions Badge