Differences in Glycoproteins and the Potential for Early Protection Using LAIV Based on Drift Variants of the A/H1N1pdm09 Influenza Virus.

IF 5.2 3区医学 Q1 IMMUNOLOGY

Vaccines Pub Date : 2025-09-11 DOI:10.3390/vaccines13090966

Yulia Desheva, Irina Mayorova, Andrey Rekstin, Daniil Sokolovsky, Polina Kudar, Nina Kopylova, Danila Guzenkov, Darya Petrachkova, Andrey Mamontov, Andrey Trullioff, Irina Kiseleva

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Abstract

Background/objectives: Antigenic drift of influenza A(H1N1pdm09) viruses has led to periodic replacement of vaccine strains. Understanding how structural differences in glycoproteins influence immune protection is crucial for improving vaccine effectiveness.

Methods: We conducted a structural analysis of the hemagglutinin (HA) and neuraminidase (NA) glycoproteins from drifted A(H1N1)pdm09 strains: A/South Africa/3626/2008 and A/Guangdong-Maonan/SWL1/2020, as well as their cold-adapted live attenuated vaccine (LAIV) reassortant strains (A/17/South Africa/2013/01(H1N1)pdm09 and A/17/Guangdong-Maonan/2019/211(H1N1)pdm09). We compared their replication in chicken embryo and mammalian cell culture, assessed type I interferon induction, and evaluated post-vaccine protection in mice after homologous and heterogeneous viral challenges.

Results: The two vaccine strains had distinct glycosylation patterns for HA and NA. However, they had similar replication capacity in embryonated egg and mammalian cells. In the mouse respiratory tract, both strains replicated similarly. A/17/South Africa/2013/01(H1N1)pdm09 induced significantly higher levels of IFN-α and Mx1 in vitro, and it elicited earlier IgM and IgG response after vaccination in mice. At day 6 after immunization, it provided 70% protection from homologous challenge. A/17/Guangdong-Maonan/2019/211(H1N1)pdm09 did not prevent death, but it reduced viral titer in the lungs. Interestingly, A/17/South Africa/2013/01(H1N1)pdm09 provided full protection from heterologous H5N1 challenge, while A/17/Guangdong-Maonan/2019/211(H1N1)pdm09) only provided partial protection.

Conclusions: Differences in HA and NA glycans among A(H1N1)pdm09 strains may influence innate and adaptive immunity, as well as cross-protection. These findings emphasize the importance of glycoprotein structure when selecting vaccine candidates for optimal homologous and cross-protection against influenza.

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基于A/H1N1pdm09流感病毒漂移变异的糖蛋白差异和早期使用LAIV保护的潜力

背景/目的：甲型流感（H1N1pdm09）病毒的抗原漂移导致定期更换疫苗株。了解糖蛋白结构差异如何影响免疫保护对提高疫苗有效性至关重要。方法：对a (H1N1)pdm09漂移株a/ South Africa/3626/2008和a/广东-茂南/SWL1/2020及其冷适应减毒活疫苗（LAIV）重组株a/ 17/South Africa/2013/01(H1N1)pdm09和a/ 17/广东-茂南/2019/211(H1N1)pdm09的血凝素（HA）和神经氨酸酶（NA）糖蛋白进行结构分析。我们比较了它们在鸡胚和哺乳动物细胞培养中的复制，评估了I型干扰素的诱导作用，并评估了同源和异质病毒攻击后小鼠的疫苗后保护作用。结果：两株疫苗对HA和NA具有不同的糖基化模式。然而，它们在胚胎卵和哺乳动物细胞中具有相似的复制能力。在小鼠呼吸道中，两种菌株的复制方式相似。A/17/South Africa/2013/01(H1N1)pdm09在体外诱导了较高水平的IFN-α和Mx1，并在小鼠接种后引起更早的IgM和IgG应答。免疫后第6天，对同源攻击有70%的保护作用。A/17/Guangdong-Maonan/2019/211(H1N1)pdm09没有预防死亡，但它降低了肺部的病毒滴度。有趣的是，A/17/South Africa/2013/01(H1N1)pdm09对异源H5N1攻击具有完全保护作用，而A/17/Guangdong-Maonan/2019/211(H1N1)pdm09仅具有部分保护作用。结论：A(H1N1)pdm09株HA和NA聚糖的差异可能影响先天免疫和适应性免疫以及交叉保护。这些发现强调了糖蛋白结构在选择最佳同源和交叉保护流感候选疫苗时的重要性。

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来源期刊

Vaccines Pharmacology, Toxicology and Pharmaceutics-Pharmacology

CiteScore

8.90

自引率

16.70%

发文量

1853

审稿时长

18.06 days

期刊介绍： Vaccines (ISSN 2076-393X) is an international, peer-reviewed open access journal focused on laboratory and clinical vaccine research, utilization and immunization. Vaccines publishes high quality reviews, regular research papers, communications and case reports.