Complete genome sequencing of H1N1pdm09 swine influenza isolates from Nigeria reveals likely reverse zoonotic transmission at the human-animal interface in intensive piggery.

Q1 Environmental Science

Infection Ecology and Epidemiology Pub Date : 2019-12-02 eCollection Date: 2019-01-01 DOI:10.1080/20008686.2019.1696632

C A Meseko, A Heidari, G N Odaibo, D O Olaleye

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引用次数: 7

Abstract

Prevailing agro-ecological conditions and intermingling of human and animals in intensive farms in urban and peri-urban areas in Africa favour cross species transmission of pathogens at the human-animal interface. However, molecular epidemiology studies of zoonotic swine influenza viruses in this region are limited. In this study, isolates of pandemic influenza virus (H1N1pdm09) obtained from pigs in Nigeria were fully sequenced. BLAST of swine influenza virus genes from Nigeria was carried out in GenBank and gene alignment was done using MEGA version 7. Maximum likelihood method (PhyML program) was used to determine gene evolutionary relationships with other viruses and phylogenetic trees were constructed to infer genomic clusters and relationship. Swine influenza viruses isolated and sequenced in this study were monophyletic and 99% congenetic with human isolates from Nigeria, Cameroon, Ghana and USA suggesting reverse zoonotic transmission from humans to pigs in intensive husbandry. A Q240R and S31N substitution among others were detected in the haemagglutinin and matrix genes, respectively, indicating potentials for mutations during interspecies co-mingling and transmission. The A/H1N1pdm09 viruses circulating in pigs that are also exposed to avian influenza in the same epidemiological zones could engender emergence of novel viruses with zoonotic or pandemic potential requiring enhanced surveillance and monitoring.

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尼日利亚H1N1pdm09猪流感分离株的全基因组测序显示，在集约化养猪场，可能在人-动物界面发生人畜共患病反向传播。

非洲城市和城郊地区集约化农场中普遍存在的农业生态条件以及人与动物的混杂有利于病原体在人-动物界面的跨物种传播。然而，该地区人畜共患猪流感病毒的分子流行病学研究有限。在这项研究中，从尼日利亚猪中获得的大流行性流感病毒(H1N1pdm09)分离株进行了完全测序。在GenBank中对尼日利亚猪流感病毒基因进行BLAST分析，并使用MEGA version 7进行基因比对。利用最大似然法(PhyML程序)确定与其他病毒的基因进化关系，构建系统发育树来推断基因组聚类和关系。本研究分离和测序的猪流感病毒与来自尼日利亚、喀麦隆、加纳和美国的人类分离株具有单系性和99%的同源性，表明在集约化养殖中，人与猪的人畜共患病反向传播。在血凝素和基质基因中分别检测到Q240R和S31N替代，表明在种间共混和传播过程中可能发生突变。A/H1N1pdm09病毒在同一流行病学区也暴露于禽流感的猪中传播，可能导致出现具有人畜共患或大流行潜力的新型病毒，需要加强监测和监测。

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来源期刊

Infection Ecology and Epidemiology Environmental Science-Environmental Science (miscellaneous)

CiteScore

8.70

自引率

0.00%

发文量

审稿时长

12 weeks

期刊介绍： Infection Ecology & Epidemiology aims to stimulate inter-disciplinary collaborations dealing with a range of subjects, from the plethora of zoonotic infections in humans, over diseases with implication in wildlife ecology, to advanced virology and bacteriology. The journal specifically welcomes papers from studies where researchers from multiple medical and ecological disciplines are collaborating so as to increase our knowledge of the emergence, spread and effect of new and re-emerged infectious diseases in humans, domestic animals and wildlife. Main areas of interest include, but are not limited to: 1.Zoonotic microbioorganisms 2.Vector borne infections 3.Gastrointestinal pathogens 4.Antimicrobial resistance 5.Zoonotic microbioorganisms in changing environment