Lederhofer Julia, Borst Andrew J, Nguyen Lam, Gillespie Rebecca A, Williams Connor J, Walker Emma L, Raab Julie E, Yap Christina, Ellis Daniel, Creanga Adrian, Tan Hyon-Xhi, Do Thi H T, Ravichandran Michelle, McDermott Adrian B, Sage Valerie Le, Andrews Sarah F, Graham Barney S, Wheatley Adam K, Reed Douglas S, King Neil P, Kanekiyo Masaru
Vaccine Research Center, National Institute of Allergy and Infectious Diseases, National Institutes of Health, Bethesda, MD 20892, United States.
Institute for Protein Design, University of Washington, Seattle, WA 98195, United States.
bioRxiv. 2024 Dec 3:2024.11.27.625426. doi: 10.1101/2024.11.27.625426.
Influenza has been responsible for multiple global pandemics and seasonal epidemics and claimed millions of lives. The imminent threat of a panzootic outbreak of avian influenza H5N1 virus underscores the urgent need for pandemic preparedness and effective countermeasures, including monoclonal antibodies (mAbs). Here, we characterize human mAbs that target the highly conserved catalytic site of viral neuraminidase (NA), termed NCS mAbs, and the molecular basis of their broad specificity. Cross-reactive NA-specific B cells were isolated by using stabilized NA probes of non-circulating subtypes. We found that NCS mAbs recognized multiple NAs of influenza A as well as influenza B NAs and conferred prophylactic protections in mice against H1N1, H5N1, and influenza B viruses. Cryo-electron microscopy structures of two NCS mAbs revealed that they rely on structural mimicry of sialic acid, the substrate of NA, by coordinating not only amino acid side chains but also water molecules, enabling inhibition of NA activity across multiple influenza A and B viruses, including avian influenza H5N1 clade 2.3.4.4b viruses. Our results provide a molecular basis for the broad reactivity and inhibitory activity of NCS mAbs targeting the catalytic site of NA through substrate mimicry.
流感已引发多次全球大流行和季节性疫情,夺走了数百万人的生命。H5N1禽流感病毒大流行爆发的紧迫威胁凸显了大流行防范和有效应对措施的迫切需求,包括单克隆抗体(mAb)。在此,我们对靶向病毒神经氨酸酶(NA)高度保守催化位点的人源单克隆抗体(称为NCS单克隆抗体)及其广泛特异性的分子基础进行了表征。通过使用非流行亚型的稳定化NA探针分离出交叉反应性NA特异性B细胞。我们发现,NCS单克隆抗体识别甲型流感病毒的多种NA以及乙型流感病毒的NA,并在小鼠中对H1N1、H5N1和乙型流感病毒提供了预防性保护。两种NCS单克隆抗体的冷冻电镜结构表明,它们不仅通过协调氨基酸侧链,还通过协调水分子,依赖于NA底物唾液酸的结构模拟,从而能够抑制多种甲型和乙型流感病毒(包括2.3.4.4b分支的H5N1禽流感病毒)的NA活性。我们的研究结果为通过底物模拟靶向NA催化位点的NCS单克隆抗体的广泛反应性和抑制活性提供了分子基础。
