Abstract
IntroductionAmplification and transmission of West Nile virus (WNV) by mosquitoes are driven by presence and number of viraemic/susceptible avian hosts.MethodsIn order to predict risk of WNV infection to humans, we collected mosquitoes from horse stables in Lagos and Ibadan, southwestern Nigeria. The mosquitoes were sorted and tested in pools with real-time RT-PCR to detect WNV (or flavivirus) RNA using WNV-specific primers and probes, as well as, pan-flavivirus-specific primers in two-step real-time RT-PCR. Minimum infection rate (MIR) was used to estimate mosquito infection rate.ResultsOnly two genera of mosquitoes were caught (Culex, 98.9% and Aedes, 1.0%) totalling 4,112 females. None of the 424 mosquito pools tested was positive for WNV RNA; consequently the MIR was zero. Sequencing and BLAST analysis of amplicons detected in pan-flavivirus primer-mediated RT-PCR gave a consensus sequence of 28S rRNA of Culex quinquefasciatus suggesting integration of flaviviral RNA into mosquito genome.ConclusionWhile the latter finding requires further investigation, we conclude there was little or no risk of human infection with WNV in the study areas during sampling. There was predominance of Culex mosquito, a competent WNV vector, around horse stables in the study areas. However, mosquito surveillance needs to continue for prompt detection of WNV activity in mosquitoes.
Highlights
Amplification and transmission of West Nile virus (WNV) by mosquitoes are driven by presence and number of viraemic/susceptible avian hosts
Real-time RT-PCR for detection of WNV in mosquitoes is very sensitive and specific with short turn-around time; it is widely used for arboviral surveillance [8, 11]
We suggest mosquito sampling around breeding sites of birds which may yield detectable WNV RNA as well as screening of birds around the same horse stables for presence of WNV activity
Summary
Amplification and transmission of West Nile virus (WNV) by mosquitoes are driven by presence and number of viraemic/susceptible avian hosts. None of the 424 mosquito pools tested was positive for WNV RNA; the MIR was zero. West Nile Virus (WNV) is a mosquito-borne viral pathogen that belongs to the Flaviviridae family. Transmission, mainly via Culex (Cx) mosquitoes, occurs by acquisition of the virus by female mosquitoes through blood meal from infected birds (amplifying reservoir hosts) and introduction of the infectious virions to other susceptible birds and mammals during subsequent blood meals [5]. Horses and other mammals that are reproductive dead-end hosts [6], birds have high and durable viral titer that allows them transmit the virus to biting mosquitoes. Besides Culex spp, other mosquitoes that efficiently transmit WNV are Aedes (Ae) albopictus, Ae vexans and Ochlerotatus triseriatus[7]
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