新冠病毒的全球空间动态和疫苗诱导的适应性变化。

Global spatial dynamics and vaccine-induced fitness changes of .

机构信息

Insitut Pasteur, Université Paris Cité, Mathematical Modelling of Infectious Diseases Unit, UMR2000, CNRS, 75015 Paris, France.

Department of Genetics, University of Cambridge, Cambridge CB2 3EH, UK.

出版信息

Sci Transl Med. 2022 Apr 27;14(642):eabn3253. doi: 10.1126/scitranslmed.abn3253.

DOI:10.1126/scitranslmed.abn3253

PMID:35476597

Abstract

As with other pathogens, competitive interactions between strains drive infection risk. Vaccines are thought to perturb strain diversity through shifts in immune pressures; however, this has rarely been measured because of inadequate data and analytical tools. We used 3344 sequences from 23 countries to show that, on average, there are 28.1 transmission chains circulating within a subnational region, with the number of chains strongly associated with host population size. It took 5 to 10 years for to be homogeneously distributed throughout Europe, with the same time frame required for the United States. Increased fitness of pertactin-deficient strains after implementation of acellular vaccines, but reduced fitness otherwise, can explain long-term genotype dynamics. These findings highlight the role of vaccine policy in shifting local diversity of a pathogen that is responsible for 160,000 deaths annually.

摘要

与其他病原体一样，菌株之间的竞争相互作用会导致感染风险。疫苗被认为通过免疫压力的改变来改变菌株多样性；然而，由于数据和分析工具的不足，这种情况很少被测量到。我们使用来自 23 个国家的 3344 个序列表明，平均而言，在一个次国家区域内有 28.1 条传播链在循环，而链的数量与宿主人口规模密切相关。在欧洲，大约需要 5 到 10 年的时间才能使白喉毒素缺陷株均匀分布，而在美国则需要同样的时间。细胞疫苗实施后，白喉毒素缺陷株的适应性增加，但其他情况下适应性降低，这可以解释长期的基因型动态。这些发现突出了疫苗政策在改变病原体局部多样性方面的作用，该病原体每年导致 16 万人死亡。

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新冠病毒的全球空间动态和疫苗诱导的适应性变化。

Global spatial dynamics and vaccine-induced fitness changes of .

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