Chikungunya intra-vector dynamics in Aedes albopictus from Lyon (France) upon exposure to a human viremia-like dose range reveals vector barrier’s permissiveness and supports local epidemic potential

Barbara Viginier, Lucie Cappuccio, Céline Garnier, Edwige Martin, Carine Maisse, Claire Valiente Moro, Guillaume Minard, Albin Fontaine, Sébastian Lequime, Maxime Ratinier, Frédérick Arnaud, Vincent Raquin
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Abstract

Arbovirus emergence and epidemic potential, as approximated by the vectorial capacity formula, depends on host and vector parameters, including the vector’s intrinsic ability to replicate then transmit the pathogen known as vector competence. Vector competence is a complex, time-dependent, quantitative phenotype influenced by biotic and abiotic factors. A combination of experimental and modelling approaches is required to assess arbovirus intra-vector dynamics and estimate epidemic potential. In this study, we measured infection, dissemination, and transmission dynamics of chikungunya virus (CHIKV) in a field-derived Aedes albopictus population (Lyon, France) after oral exposure to a range of virus doses spanning human viraemia. Statistical modelling indicates rapid and efficient CHIKV progression in the vector mainly due to an absence of a dissemination barrier, with 100% of the infected mosquitoes ultimately exhibiting a disseminated infection, regardless of the virus dose. Transmission rate data revealed a time-dependent, but overall weak, transmission barrier, with individuals transmitting as soon as 2 days post-exposure (dpe) and >50% infectious mosquitoes at 6 dpe for the highest dose. Based on these experimental intra-vector dynamics data, epidemiological simulations conducted with an agent-based model showed that even at low mosquito biting rates, CHIKV could trigger outbreaks locally. Together, this reveals the epidemic potential of CHIKV upon transmission by Aedes albopictus in mainland France.
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来自法国里昂的白纹伊蚊暴露于人类病毒样剂量范围后的基孔肯雅病媒内动态揭示了媒介屏障的容许性,并支持了当地流行的可能性
根据病媒能力公式,虫媒病毒的出现和流行潜力取决于宿主和病媒参数,包括病媒复制然后传播病原体的内在能力,即病媒能力。载体能力是一个复杂的、时变的、受生物和非生物因素影响的定量表型。需要结合实验和建模方法来评估虫媒病毒在媒介内的动态和估计流行潜力。在这项研究中,我们测量了基孔肯雅病毒(CHIKV)在野外来源的白纹伊蚊种群(法国里昂)口服暴露于跨越人类病毒血症的一系列病毒剂量后的感染、传播和传播动力学。统计模型表明,主要由于缺乏传播屏障,CHIKV在病媒中迅速和有效地发展,无论病毒剂量如何,100%的受感染蚊子最终表现出播散性感染。传播率数据显示,传播屏障具有时间依赖性,但总体上较弱,个体在接触后2天传播,最高剂量为6天,感染率为50%。基于这些实验媒介内动力学数据,使用基于媒介的模型进行的流行病学模拟表明,即使在蚊子叮咬率较低的情况下,CHIKV也可能引发局部暴发。综上所述,这揭示了由白纹伊蚊在法国大陆传播的CHIKV的流行潜力。
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