Immunological findings of West Caucasian bat virus in an accidental host

Martina Castellan, Gianpiero Zamperin, Greta Foiani, Maira Zorzan, Maria Francesca Priore, Petra Drzewnioková, Erica Melchiotti, Marta Vascellari, Isabella Monne, Sergio Crovella, Stefania Leopardi, Paola De Benedictis
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Abstract

The Lyssavirus genus includes seventeen neurotropic viral species which are able to cause rabies, an acute and almost invariably fatal encephalomyelitis of mammals. Rabies virus (RABV), the genus prototype, is a multi-host pathogen that undergoes multiple events of host-switching, thus occupying several geographical and ecological niches. In contrast, non-RABV lyssaviruses are mainly confined within a single natural host with rare spillover events never followed by adaptation to new accidental host species. In this scenario, unveiling the mechanisms underlying the host immune response against a virus is crucial to understand the dynamics of infection but also to predict the probability of colonization and adaptation to a new target species. Presently, the host response to lyssaviruses has only been partially explored, with the majority of data inferred from RABV infection, under the assumption that all members of the genus exhibit a similar behavior. Through our study we have investigated the immune response determined by the West Caucasian bat virus (WCBV). Indeed, WCBV has been recently associated with a spillover event to a domestic cat, raising concern about the risks for public health due to the circulation of the virus in its natural host. We selected the Syrian hamster as an animal model representative for an accidental host, and chose the intramuscular route in order to mimic the natural route of infection. In hamsters, WCBV was highly pathogenic, determining 100% lethality and mild encephalitis. In comparison with Duvenhage virus (DUVV) and RABV, we found that WCBV displayed an intermediate ability to promote cellular antiviral response, produce pro-inflammatory cytokines, recruit and activate lymphocytes in the hamsters’ central nervous system.
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西高加索蝙蝠病毒在意外宿主体内的免疫学发现
Lyssavirus 属包括 17 种可引起狂犬病的神经性病毒,狂犬病是哺乳动物的一种急性脑脊髓炎,几乎无一例外都是致命的。狂犬病毒(RABV)是狂犬病毒属的原型,是一种多宿主病原体,会发生多次宿主转换,从而占据多个地理和生态位。与此相反,非 RABV lyssaviruses 主要局限于单一自然宿主,很少发生外溢事件,也从未适应新的意外宿主物种。在这种情况下,揭示宿主对病毒的免疫反应机制不仅对了解感染动态至关重要,而且对预测定殖和适应新目标物种的概率也至关重要。目前,宿主对深裂病毒的反应只得到了部分探讨,大部分数据都是根据 RABV 感染推断的,假设该属的所有成员都表现出类似的行为。我们通过研究调查了西高加索蝙蝠病毒(WCBV)决定的免疫反应。事实上,西高加索蝙蝠病毒最近与家猫的外溢事件有关,引起了人们对该病毒在其自然宿主中的传播所带来的公共卫生风险的担忧。我们选择了叙利亚仓鼠作为代表意外宿主的动物模型,并选择了肌肉注射途径以模拟自然感染途径。在仓鼠体内,WCBV 具有高致病性,致死率为 100%,并可引起轻度脑炎。与Duvenhage病毒(DUVV)和RABV相比,我们发现WCBV在促进细胞抗病毒反应、产生促炎细胞因子、招募和激活仓鼠中枢神经系统淋巴细胞方面的能力处于中等水平。
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