HA N193D substitution in the HPAI H5N1 virus alters receptor binding affinity and enhances virulence in mammalian hosts.

IF 8.4 2区医学 Q1 IMMUNOLOGY Emerging Microbes & Infections Pub Date : 2024-12-01 Epub Date: 2024-02-03 DOI:10.1080/22221751.2024.2302854

Seung-Gyu Jang, Young-Il Kim, Mark Anthony B Casel, Jeong Ho Choi, Ju Ryeon Gil, Rare Rollon, Eun-Ha Kim, Se-Mi Kim, Ho Young Ji, Dong Bin Park, Jungwon Hwang, Jae-Woo Ahn, Myung Hee Kim, Min-Suk Song, Young Ki Choi

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Abstract

During the 2021/2022 winter season, we isolated highly pathogenic avian influenza (HPAI) H5N1 viruses harbouring an amino acid substitution from Asparagine(N) to Aspartic acid (D) at residue 193 of the hemagglutinin (HA) receptor binding domain (RBD) from migratory birds in South Korea. Herein, we investigated the characteristics of the N193D HA-RBD substitution in the A/CommonTeal/Korea/W811/2021[CT/W811] virus by using recombinant viruses engineered via reverse genetics (RG). A receptor affinity assay revealed that the N193D HA-RBD substitution in CT/W811 increases α2,6 sialic acid receptor binding affinity. The rCT/W811-HA_193N virus caused rapid lethality with high virus titres in chickens compared with the rCT/W811-HA_193D virus, while the rCT/W811-HA_193D virus exhibited enhanced virulence in mammalian hosts with multiple tissue tropism. Surprisingly, a ferret-to-ferret transmission assay revealed that rCT/W811-HA_193D virus replicates well in the respiratory tract, at a rate about 10 times higher than that of rCT/W811-HA_193N, and all rCT/W811-HA_193D direct contact ferrets were seroconverted at 10 days post-contact. Further, competition transmission assay of the two viruses revealed that rCT/W811-HA_193D has enhanced growth kinetics compared with the rCT/W811-HA_193N, eventually becoming the dominant strain in nasal turbinates. Further, rCT/W811-HA_193D exhibits high infectivity in primary human bronchial epithelial (HBE) cells, suggesting the potential for human infection. Taken together, the HA-193D containing HPAI H5N1 virus from migratory birds showed enhanced virulence in mammalian hosts, but not in avian hosts, with multi-organ replication and ferret-to-ferret transmission. Thus, this suggests that HA-193D change increases the probability of HPAI H5N1 infection and transmission in humans.

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高致病性禽流感 H5N1 病毒中的 HA N193D 置换改变了受体结合亲和力并增强了对哺乳动物宿主的毒力。

在2021/2022年冬季，我们从韩国的候鸟中分离到了高致病性禽流感（HPAI）H5N1病毒，其血凝素（HA）受体结合域（RBD）残基193处的氨基酸从天冬酰胺（N）替换为天冬氨酸（D）。在此，我们利用通过反向遗传学（RG）设计的重组病毒，研究了A/CommonTeal/Korea/W811/2021[CT/W811]病毒中N193D HA-RBD置换的特征。受体亲和力测定显示，CT/W811 中的 N193D HA-RBD 置换增加了 α2,6-丝氨酸受体结合亲和力。与 rCT/W811-HA193D 病毒相比，rCT/W811-HA193N 病毒可导致鸡快速死亡，病毒滴度较高，而 rCT/W811-HA193D 病毒在哺乳动物宿主中的毒力增强，具有多组织滋养性。令人惊讶的是，雪貂间传播试验显示，rCT/W811-HA193D 病毒在呼吸道中复制良好，复制率是 rCT/W811-HA193N 病毒的 10 倍左右，所有直接接触过 rCT/W811-HA193D 病毒的雪貂在接触后 10 天均出现血清转换。此外，两种病毒的竞争传播试验显示，与 rCT/W811-HA193N 相比，rCT/W811-HA193D 的生长动力学更强，最终成为鼻甲中的优势毒株。此外，rCT/W811-HA193D 在原代人类支气管上皮细胞（HBE）中表现出很高的感染性，这表明它有可能感染人类。综上所述，来自候鸟的含有 HA-193D 的高致病性禽流感 H5N1 病毒在哺乳动物宿主中表现出更强的毒力，而在禽类宿主中则没有表现出更强的毒力，病毒可在多个器官复制，并可在雪貂间传播。这表明，HA-193D 的变化增加了人类感染和传播高致病性禽流感 H5N1 病毒的可能性。

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来源期刊

Emerging Microbes & Infections IMMUNOLOGY-MICROBIOLOGY

CiteScore

26.20

自引率

2.30%

发文量

276

审稿时长

20 weeks

期刊介绍： Emerging Microbes & Infections is a peer-reviewed, open-access journal dedicated to publishing research at the intersection of emerging immunology and microbiology viruses. The journal's mission is to share information on microbes and infections, particularly those gaining significance in both biological and clinical realms due to increased pathogenic frequency. Emerging Microbes & Infections is committed to bridging the scientific gap between developed and developing countries. This journal addresses topics of critical biological and clinical importance, including but not limited to: - Epidemic surveillance - Clinical manifestations - Diagnosis and management - Cellular and molecular pathogenesis - Innate and acquired immune responses between emerging microbes and their hosts - Drug discovery - Vaccine development research Emerging Microbes & Infections invites submissions of original research articles, review articles, letters, and commentaries, fostering a platform for the dissemination of impactful research in the field.