Altered lentiviral infection dynamics follow genetic rescue of the Florida panther

J. Malmberg, JUSTIN S. Lee, R. Gagne, S. Kraberger, Sarah Kechejian, M. Roelke, R. McBride, D. Onorato, M. Cunningham, K. Crooks, S. Vandewoude
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引用次数: 6

Abstract

Wildlife translocations are a commonly used strategy in endangered species recovery programmes. Although translocations require detailed assessment of risk, their impact on parasite distribution has not been thoroughly assessed. This is despite the observation that actions that alter host–parasite distributions can drive evolution or introduce new parasites to previously sequestered populations. Here, we use a contemporary approach to amplify viral sequences from archived biological samples to characterize a previously undocumented impact of the successful genetic rescue of the Florida panther (Puma concolor coryi). Our efforts reveal transmission of feline immunodeficiency virus (FIV) during translocation of pumas from Texas to Florida, resulting in extirpation of a historic Florida panther FIV subtype and expansion of a genetically stable subtype that is highly conserved in Texas and Florida. We used coalescent theory to estimate viral demography across time and show an exponential increase in the effective population size of FIV coincident with expansion of the panther population. Additionally, we show that FIV isolates from Texas are basal to isolates from Florida. Interestingly, FIV genomes recovered from Florida and Texas demonstrate exceptionally low interhost divergence. Low host genomic diversity and lack of additional introgressions may underlie the surprising lack of FIV evolution over 2 decades. We conclude that modern FIV in the Florida panther disseminated following genetic rescue and rapid population expansion, and that infectious disease risks should be carefully considered during conservation efforts involving translocations. Further, viral evolutionary dynamics may be significantly altered by ecological niche, host diversity and connectivity between host populations.
改变慢病毒感染动力学遵循佛罗里达黑豹的遗传救援
野生动物易位是濒危物种恢复计划中常用的策略。虽然易位需要详细的风险评估,但其对寄生虫分布的影响尚未得到彻底评估。尽管观察到改变宿主-寄生虫分布的行动可以推动进化或向以前隔离的种群引入新的寄生虫。在这里,我们使用现代方法从存档的生物样本中扩增病毒序列,以表征以前未记载的佛罗里达美洲豹(美洲狮)成功遗传拯救的影响。我们的研究揭示了猫科免疫缺陷病毒(FIV)在美洲狮从德克萨斯州到佛罗里达州的易位过程中的传播,导致历史上佛罗里达美洲豹FIV亚型的灭绝和德克萨斯州和佛罗里达州高度保守的遗传稳定亚型的扩展。我们使用聚结理论来估计病毒随时间的人口分布,并显示出FIV有效种群规模的指数增长与黑豹种群的扩张一致。此外,我们发现来自德克萨斯州的FIV分离株是来自佛罗里达州的分离株的基础。有趣的是,从佛罗里达州和德克萨斯州恢复的FIV基因组显示出异常低的宿主间分化。低宿主基因组多样性和缺乏额外的基因渗入可能是近20年来FIV进化缺乏的原因。我们得出结论,佛罗里达黑豹的现代FIV是在遗传救援和种群快速扩张后传播的,在涉及易位的保护工作中应仔细考虑传染病风险。此外,病毒的进化动态可能会被生态位、宿主多样性和宿主种群之间的连通性显著改变。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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