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Fine scale spatial investigation of multiple insecticide resistance and underlying target-site and metabolic mechanisms in Anopheles gambiae in central Côte d'Ivoire

Oumbouke Welbeck A., Pignatelli Patricia, Barreaux Antoine, Tia Innocent Zran, Koffi Alphonsine A., Ahoua Alou Ludovic P., Sternberg Eleanore D., Thomas Matthew B., Weetman David, N'Guessan Raphaël. 2020. Fine scale spatial investigation of multiple insecticide resistance and underlying target-site and metabolic mechanisms in Anopheles gambiae in central Côte d'Ivoire. Scientific Reports, 10:15066, 13 p

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Quartile : Q1, Sujet : MULTIDISCIPLINARY SCIENCES

Résumé : Routine monitoring of occurrence, levels and mechanisms of insecticide resistance informs effective management strategies, and should be used to assess the effect of new tools on resistance. As part of a cluster randomised controlled trial evaluating a novel insecticide-based intervention in central Côte d'Ivoire, we assessed resistance and its underlying mechanisms in Anopheles gambiae populations from a subset of trial villages. Resistance to multiple insecticides in An. gambiae s.s. and An. coluzzii was detected across villages, with dose–response assays demonstrating extremely high resistance intensity to the pyrethroid deltamethrin (> 1,500-fold), and mortality following exposure to pyrethroid-treated bednets was low (< 30% mortality in cone bioassays). The 1014F kdr mutation was almost fixed (≥ 90%) in all villages but the 1575Y kdr-amplifying mutation was relatively rare (< 15%). The carbamate and organophosphate resistance-associated Ace-1 G119S mutation was also detected at moderate frequencies (22–43%). Transcriptome analysis identified overexpression of P450 genes known to confer pyrethroid resistance (Cyp9K1, Cyp6P3, and Cyp6M2), and also a carboxylesterase (COEAE1F) as major candidates. Cyp6P3 expression was high but variable (up to 33-fold) and correlated positively with deltamethrin resistance intensity across villages (r2 = 0.78, P = 0.02). Tools and strategies to mitigate the extreme and multiple resistance provided by these mechanisms are required in this area to avoid future control failures.

Mots-clés Agrovoc : Anopheles gambiae, malaria, résistance aux insecticides, résistance aux pesticides, mécanisme de défense, gène, insecticide, deltaméthrine

Mots-clés géographiques Agrovoc : Côte d'Ivoire

Mots-clés libres : Insecticide resistance, Metabolism, Anopheles gambiae, Vector control

Agences de financement hors UE : Bill and Melinda Gates Foundation

Auteurs et affiliations

  • Oumbouke Welbeck A., IPR (CIV) - auteur correspondant
  • Pignatelli Patricia, Liverpool School of Tropical Medicine (GBR)
  • Barreaux Antoine, University of Bristol (GBR) ORCID: 0000-0001-5822-761X
  • Tia Innocent Zran, IPR (CIV)
  • Koffi Alphonsine A., IPR (CIV)
  • Ahoua Alou Ludovic P., IPR (CIV)
  • Sternberg Eleanore D., Liverpool School of Tropical Medicine (GBR)
  • Thomas Matthew B., Pennsylvania State University (USA)
  • Weetman David, Liverpool School of Tropical Medicine (GBR)
  • N'Guessan Raphaël, IPR (CIV)

Source : Cirad-Agritrop (https://agritrop.cirad.fr/609725/)

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