文章基本信息

标题：Contrasting evolution of virulence and replication rate in an emerging bacterial pathogen
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作者：Luc Tardy ; Mathieu Giraudeau ; Geoffrey E. Hill 等
期刊名称：Proceedings of the National Academy of Sciences
印刷版ISSN：0027-8424
电子版ISSN：1091-6490
出版年度：2019
卷号：116
期号：34
页码：16927-16932
DOI：10.1073/pnas.1901556116
出版社：The National Academy of Sciences of the United States of America
摘要：Host resistance through immune clearance is predicted to favor pathogens that are able to transmit faster and are hence more virulent. Increasing pathogen virulence is, in turn, typically assumed to be mediated by increasing replication rates. However, experiments designed to test how pathogen virulence and replication rates evolve in response to increasing host resistance, as well as the relationship between the two, are rare and lacking for naturally evolving host–pathogen interactions. We inoculated 55 isolates of Mycoplasma gallisepticum , collected over 20 y from outbreak, into house finches ( Haemorhous mexicanus ) from disease-unexposed populations, which have not evolved protective immunity to M. gallisepticum . We show using 3 different metrics of virulence (body mass loss, symptom severity, and putative mortality rate) that virulence has increased linearly over >150,000 bacterial generations since outbreak (1994 to 2015). By contrast, while replication rates increased from outbreak to the initial spread of resistance (1994 to 2004), no further increases have occurred subsequently (2007 to 2015). Finally, as a consequence, we found that any potential mediating effect of replication rate on virulence evolution was restricted to the period when host resistance was initially increasing in the population. Taken together, our results show that pathogen virulence and replication rates can evolve independently, particularly after the initial spread of host resistance. We hypothesize that the evolution of pathogen virulence can be driven primarily by processes such as immune manipulation after resistance spreads in host populations.
关键词：bacteria ; emerging infectious disease ; evolution of resistance ; evolution of virulence ; pathogen load