Tolerance-conferring defensive symbionts and the evolution of parasite virulence.

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC
ACS Applied Electronic Materials Pub Date : 2023-05-05 eCollection Date: 2023-08-01 DOI:10.1093/evlett/qrad015
Cameron A Smith, Ben Ashby
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Abstract

Defensive symbionts in the host microbiome can confer protection from infection or reduce the harms of being infected by a parasite. Defensive symbionts are therefore promising agents of biocontrol that could be used to control or ameliorate the impact of infectious diseases. Previous theory has shown how symbionts can evolve along the parasitism-mutualism continuum to confer greater or lesser protection to their hosts and in turn how hosts may coevolve with their symbionts to potentially form a mutualistic relationship. However, the consequences of introducing a defensive symbiont for parasite evolution and how the symbiont may coevolve with the parasite have received relatively little theoretical attention. Here, we investigate the ecological and evolutionary implications of introducing a tolerance-conferring defensive symbiont into an established host-parasite system. We show that while the defensive symbiont may initially have a positive impact on the host population, parasite and symbiont evolution tend to have a net negative effect on the host population in the long term. This is because the introduction of the defensive symbiont always selects for an increase in parasite virulence and may cause diversification into high- and low-virulence strains. Even if the symbiont experiences selection for greater host protection, this simply increases selection for virulence in the parasite, resulting in a net negative effect on the host population. Our results therefore suggest that tolerance-conferring defensive symbionts may be poor biocontrol agents for population-level infectious disease control.

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具有耐受性的防御性共生体与寄生虫毒力的进化
宿主微生物组中的防御性共生体可以保护宿主免受感染或减少寄生虫感染带来的危害。因此,防御性共生体是很有希望的生物控制剂,可用于控制或减轻传染病的影响。以往的理论表明,共生体如何沿着寄生-互生的连续统一体进化,为宿主提供或多或少的保护,而宿主又如何与其共生体共同进化,形成潜在的互生关系。然而,关于引入防御性共生体对寄生虫进化的影响以及共生体如何与寄生虫共同进化,理论界的关注相对较少。在这里,我们研究了在已建立的宿主-寄生虫系统中引入具有耐受性的防御性共生体对生态和进化的影响。我们发现,虽然防御性共生体最初可能会对宿主种群产生积极影响,但从长远来看,寄生虫和共生体的进化往往会对宿主种群产生净负面影响。这是因为防御性共生体的引入总是选择性地提高寄生虫的毒性,并可能导致高毒株和低毒株的多样化。即使共生体经历了对宿主提供更多保护的选择,这也只是增加了对寄生虫毒力的选择,从而对宿主种群产生净负面影响。因此,我们的研究结果表明,具有耐受性的防御性共生体可能是控制群体传染病的不良生物控制剂。
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来源期刊
CiteScore
7.20
自引率
4.30%
发文量
567
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