Royal Society Open Science (Apr 2021)

Evidence for natural hybridization and novel <italic toggle="yes">Wolbachia</italic> strain superinfections in the <italic toggle="yes">Anopheles gambiae</italic> complex from Guinea

  • Claire L. Jeffries,
  • Cintia Cansado-Utrilla,
  • Abdoul H. Beavogui,
  • Caleb Stica,
  • Eugene K. Lama,
  • Mojca Kristan,
  • Seth R. Irish,
  • Thomas Walker

DOI
https://doi.org/10.1098/rsos.202032
Journal volume & issue
Vol. 8, no. 4

Abstract

Read online

Wolbachia, a widespread bacterium which can influence mosquito-borne pathogen transmission, has recently been detected within Anopheles (An.) species that are malaria vectors in Sub-Saharan Africa. Although studies have reported Wolbachia strains in the An. gambiae complex, apparent low density and prevalence rates require confirmation. In this study, wild Anopheles mosquitoes collected from two regions of Guinea were investigated. In contrast with previous studies, RNA was extracted from adult females (n = 516) to increase the chances for the detection of actively expressed Wolbachia genes, determine Wolbachia prevalence rates and estimate relative strain densities. Molecular confirmation of mosquito species and Wolbachia multilocus sequence typing (MLST) were carried out to analyse phylogenetic relationships of mosquito hosts and newly discovered Wolbachia strains. Strains were detected in An. melas (prevalence rate of 11.6%–16/138) and hybrids between An. melas and An. gambiae sensu stricto (prevalence rate of 40.0%–6/15) from Senguelen in the Maferinyah region. Furthermore, a novel high-density strain, termed wAnsX, was found in an unclassified Anopheles species. The discovery of novel Wolbachia strains (particularly in members, and hybrids, of the An. gambiae complex) provides further candidate strains that could be used for future Wolbachia-based malaria biocontrol strategies.

Keywords