抗原漂移扩大了流感病毒从体液免疫中逃逸的途径

IF 25.5 1区医学 Q1 IMMUNOLOGY

Immunity Pub Date : 2025-02-28 DOI:10.1016/j.immuni.2025.02.006

Daniel P. Maurer, Mya Vu, Aaron G. Schmidt

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引用次数: 0

摘要

最初暴露于一种快速进化的病毒建立了B细胞记忆，这种记忆会影响后来对抗原漂移株的反应。这种“免疫印记”表明，随后暴露于漂移菌株可以诱导记忆B细胞的亲和力成熟，从而与漂移菌株产生交叉反应，从而获得更大的整体宽度。在这里，我们使用H1流感血凝素（HAs）的深度突变扫描来研究病毒如何进化以响应这些广泛的抗体反应。我们从克隆抗体谱系中发现了靶向受体结合位点和外侧斑块的逃逸突变。通过调整抗原-抗体接触，抗体亲和成熟限制了诱导菌株的潜在逃逸途径。然而，在漂流的菌株中，逃逸很容易发生。我们将这种易于逃逸的特性归因于HA内的上位网络。我们的数据解释了流感病毒如何通过逃避广泛的抗体反应而在人群中继续进化。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

Antigenic drift expands influenza viral escape pathways from recalled humoral immunity

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Antigenic drift expands influenza viral escape pathways from recalled humoral immunity

Initial exposure to a rapidly evolving virus establishes B cell memory that biases later responses to antigenically drifted strains. This “immune imprinting” implies that subsequent exposure to a drifted strain can induce affinity maturation of memory B cells toward cross-reactivity with the drifted strain and hence toward greater overall breadth. Here, we used deep mutational scanning of H1 influenza hemagglutinins (HAs) to investigate how viruses evolve in response to these broad antibody response. We identified escape mutations from clonal antibody lineages that targeted the receptor binding site and lateral patch. By adjusting the antigen-antibody contacts, antibody affinity maturation restricted the potential escape routes for the eliciting strain. However, escape occurred readily in drifted strains. We attribute this escape-prone property of the drifted strains to epistatic networks within HA. Our data explain how the influenza virus continues to evolve in the human population by escaping even broad antibody responses.

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来源期刊

Immunity 医学-免疫学

CiteScore

49.40

自引率

2.20%

发文量

205

审稿时长

6 months

期刊介绍： Immunity is a publication that focuses on publishing significant advancements in research related to immunology. We encourage the submission of studies that offer groundbreaking immunological discoveries, whether at the molecular, cellular, or whole organism level. Topics of interest encompass a wide range, such as cancer, infectious diseases, neuroimmunology, autoimmune diseases, allergies, mucosal immunity, metabolic diseases, and homeostasis.