哪些 "不完善的疫苗 "会促使病毒进化出更强的毒性?

IF 3.3 3区 医学 Q2 EVOLUTIONARY BIOLOGY
Evolution, Medicine, and Public Health Pub Date : 2022-04-26 eCollection Date: 2022-01-01 DOI:10.1093/emph/eoac015
James J Bull, Rustom Antia
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引用次数: 0

摘要

背景和目的:理论认为,某些类型的传染病病原体疫苗可能会导致变种的进化,从而造成更大的危害,尤其是当它们感染未接种疫苗的个体时。这一理论得到了以下观察结果的支持:使用不完善的疫苗控制鸡的马立克氏病病毒,导致病毒进化为对未接种疫苗的鸟类更具致命性。这不禁让人担心,其他一些疫苗的使用也可能导致类似的恶性结果。我们对这一理论进行了研究,重点是考虑预计会出现这种结果的制度:我们评估了原始理论中假设的合理性。以前的理论在很大程度上依赖于特定形式的传播-死亡率-恢复权衡,并援引了关于进化途径的其他假设。我们回顾了死亡率在限制传播中的替代作用,并考虑了原始理论中忽略的进化途径:结果:我们的分析缩小了恶性进化结果发生的范围,但在各种情况下仍有可能发生。我们建议对感染的宿主内动态和限制毒力的因素的替代模型进行更细致的考虑。我们的分析表明,针对许多病原体的不完善疫苗不会导致病原体在未接种疫苗个体中的毒力增强:结论:疫苗接种导致病原体死亡率增加的演变仍然难以预测,但这种结果的范围似乎有限。将机理细节纳入框架,特别是有关免疫的细节,可能是提高预测准确性的必要条件。理论已经预测了这种进化对各种疫苗和药物治疗等其他干预措施的反应。在什么情况下会出现这种恶性结果?根据我们对病毒生物学认识的最新变化对该理论进行分析后,我们怀疑由药物驱动的恶性进化可能很常见。但是,我们对病原体与宿主之间相互作用的机理认识还远远不够,无法预测疫苗和其他医疗干预措施何时会导致毒性更强的病原体发生不必要的进化。因此,虽然产生有害结果的机制可能有限,但在设计许多类型的干预措施时仍需谨慎。
本文章由计算机程序翻译,如有差异,请以英文原文为准。

Which 'imperfect vaccines' encourage the evolution of higher virulence?

Which 'imperfect vaccines' encourage the evolution of higher virulence?

Which 'imperfect vaccines' encourage the evolution of higher virulence?

Which 'imperfect vaccines' encourage the evolution of higher virulence?

Background and objectives: Theory suggests that some types of vaccines against infectious pathogens may lead to the evolution of variants that cause increased harm, particularly when they infect unvaccinated individuals. This theory was supported by the observation that the use of an imperfect vaccine to control Marek's disease virus in chickens resulted in the virus evolving to be more lethal to unvaccinated birds. This raises the concern that the use of some other vaccines may lead to similar pernicious outcomes. We examine that theory with a focus on considering the regimes in which such outcomes are expected.

Methodology: We evaluate the plausibility of assumptions in the original theory. The previous theory rested heavily on a particular form of transmission-mortality-recovery trade-off and invoked other assumptions about the pathways of evolution. We review alternatives to mortality in limiting transmission and consider evolutionary pathways that were omitted in the original theory.

Results: The regime where the pernicious evolutionary outcome occurs is narrowed by our analysis but remains possible in various scenarios. We propose a more nuanced consideration of alternative models for the within-host dynamics of infections and for factors that limit virulence. Our analysis suggests imperfect vaccines against many pathogens will not lead to the evolution of pathogens with increased virulence in unvaccinated individuals.

Conclusions and implications: Evolution of greater pathogen mortality driven by vaccination remains difficult to predict, but the scope for such outcomes appears limited. Incorporation of mechanistic details into the framework, especially regarding immunity, may be requisite for prediction accuracy.

Lay summary: A virus of chickens appears to have evolved high mortality in response to a vaccine that merely prevented disease symptoms. Theory has predicted this type of evolution in response to a variety of vaccines and other interventions such as drug treatment. Under what circumstances is this pernicious result likely to occur? Analysis of the theory in light of recent changes in our understanding of viral biology raises doubts that medicine-driven, pernicious evolution is likely to be common. But we are far from a mechanistic understanding of the interaction between pathogen and host that can predict when vaccines and other medical interventions will lead to the unwanted evolution of more virulent pathogens. So, while the regime where a pernicious result obtains may be limited, caution remains warranted in designing many types of interventions.

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来源期刊
Evolution, Medicine, and Public Health
Evolution, Medicine, and Public Health Environmental Science-Health, Toxicology and Mutagenesis
CiteScore
5.40
自引率
2.70%
发文量
37
审稿时长
8 weeks
期刊介绍: About the Journal Founded by Stephen Stearns in 2013, Evolution, Medicine, and Public Health is an open access journal that publishes original, rigorous applications of evolutionary science to issues in medicine and public health. It aims to connect evolutionary biology with the health sciences to produce insights that may reduce suffering and save lives. Because evolutionary biology is a basic science that reaches across many disciplines, this journal is open to contributions on a broad range of topics.
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