Coevolution of Age-Structured Tolerance and Virulence

IF 4.6 Q2 MATERIALS SCIENCE, BIOMATERIALS ACS Applied Bio Materials Pub Date : 2024-04-25 DOI:10.1007/s11538-024-01292-2
Lydia J. Buckingham, Ben Ashby
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Abstract

Hosts can evolve a variety of defences against parasitism, including resistance (which prevents or reduces the spread of infection) and tolerance (which protects against virulence). Some organisms have evolved different levels of tolerance at different life-stages, which is likely to be the result of coevolution with pathogens, and yet it is currently unclear how coevolution drives patterns of age-specific tolerance. Here, we use a model of tolerance-virulence coevolution to investigate how age structure influences coevolutionary dynamics. Specifically, we explore how coevolution unfolds when tolerance and virulence (disease-induced mortality) are age-specific compared to when these traits are uniform across the host lifespan. We find that coevolutionary cycling is relatively common when host tolerance is age-specific, but cycling does not occur when tolerance is the same across all ages. We also find that age-structured tolerance can lead to selection for higher virulence in shorter-lived than in longer-lived hosts, whereas non-age-structured tolerance always leads virulence to increase with host lifespan. Our findings therefore suggest that age structure can have substantial qualitative impacts on host–pathogen coevolution.

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年龄结构耐受性和病毒性的共同进化
宿主可以进化出多种防御寄生虫的方法,包括抗性(防止或减少感染的传播)和耐受性(防止毒力)。一些生物在不同的生命阶段进化出不同程度的耐受性,这很可能是与病原体共同进化的结果,但目前还不清楚共同进化是如何驱动特定年龄耐受性模式的。在这里,我们利用耐受性-病毒性共同进化模型来研究年龄结构如何影响共同进化动态。具体来说,我们探讨了当耐受性和毒力(疾病引起的死亡率)具有年龄特异性时,与当这些特征在宿主生命周期中具有一致性时相比,共同进化是如何展开的。我们发现,当宿主的耐受性具有年龄特异性时,共同进化循环相对常见,但当所有年龄段的耐受性相同时,循环就不会发生。我们还发现,年龄结构的耐受性会导致对寿命较短宿主的毒力选择高于对寿命较长宿主的选择,而非年龄结构的耐受性则总是导致毒力随着宿主寿命的延长而增加。因此,我们的研究结果表明,年龄结构会对宿主-病原体的共同进化产生实质性影响。
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来源期刊
ACS Applied Bio Materials
ACS Applied Bio Materials Chemistry-Chemistry (all)
CiteScore
9.40
自引率
2.10%
发文量
464
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