Wildlife Biology Program, Department of Ecosystem and Conservation Sciences, W. A. Franke College of Forestry and Conservation, University of Montana, Missoula, MT, USA.
Department of Veterinary Integrative Biosciences, Texas A&M University College of Veterinary Medicine, TX, USA.
Mol Ecol. 2020 Nov;29(22):4308-4321. doi: 10.1111/mec.15449. Epub 2020 May 15.
The outcome of pathogen spillover from a reservoir to a novel host population can range from a "dead-end" when there is no onward transmission in the recipient population, to epidemic spread and even establishment in new hosts. Understanding the evolutionary epidemiology of spillover events leading to discrete outcomes in novel hosts is key to predicting risk and can lead to a better understanding of the mechanisms of emergence. Here we use a Bayesian phylodynamic approach to examine cross-species transmission and evolutionary dynamics during a canine distemper virus (CDV) spillover event causing clinical disease and population decline in an African lion population (Panthera leo) in the Serengeti Ecological Region between 1993 and 1994. Using 21 near-complete viral genomes from four species we found that this large-scale outbreak was likely ignited by a single cross-species spillover event from a canid reservoir to noncanid hosts <1 year before disease detection and explosive spread of CDV in lions. Cross-species transmission from other noncanid species probably fuelled the high prevalence of CDV across spatially structured lion prides. Multiple lines of evidence suggest that spotted hyenas (Crocuta crocuta) could have acted as the proximate source of CDV exposure in lions. We report 13 nucleotide substitutions segregating CDV strains found in canids and noncanids. Our results are consistent with the hypothesis that virus evolution played a role in CDV emergence in noncanid hosts following spillover during the outbreak, suggest that host barriers to clinical infection can limit outcomes of CDV spillover in novel host species.
从储层到新宿主种群的病原体溢出的结果范围从没有在受体种群中继续传播的“死胡同”,到流行传播甚至在新宿主中建立。了解导致新宿主中离散结果的溢出事件的进化流行病学是预测风险的关键,并可以更好地了解出现的机制。在这里,我们使用贝叶斯系统发育方法来检查犬瘟热病毒(CDV)溢出事件在 1993 年至 1994 年期间导致塞伦盖蒂生态区的非洲狮种群( Panthera leo )发生临床疾病和种群减少期间的跨物种传播和进化动态。使用来自四个物种的 21 个近完整病毒基因组,我们发现这次大规模爆发很可能是由 1 年前的一次从犬科动物库到非犬科动物宿主的单一跨物种溢出事件引发的,在狮子中 CDV 迅速传播。来自其他非犬科动物的跨物种传播可能助长了 CDV 在空间结构上的狮子群体中的高流行率。多种证据表明,斑点鬣狗( Crocuta crocuta )可能是狮子暴露于 CDV 的最接近来源。我们报告了在犬科动物和非犬科动物中发现的 CDV 株中分离出的 13 个核苷酸取代。我们的结果与病毒进化在爆发期间溢出后非犬科宿主中 CDV 出现的假设一致,表明宿主对临床感染的屏障可以限制 CDV 溢出到新宿主物种中的结果。
