Daniel P Maurer, Mya Vu, Ana S Ferreira Ramos, Haley L Dugan, Paul Khalife, James C Geoghegan, Laura M Walker, Goran Bajic, Aaron G Schmidt
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引用次数: 0
摘要
以流感血凝素(HA)为靶点的单克隆抗体(mAbs)有可能被用作预防药物或提供广泛保护的下一代疫苗的模板。在这里,我们从人类 B 细胞中分离出了针对 H1 或 H3 HA 头部的广泛亚型中和 mAb 以及针对茎部的独特 mAb。H1 mAbs 以 H1 HA 上先前定义的侧贴表位为靶标,除了能识别具有大流行潜能的猪 H1N1 病毒外,还能识别 1933 年至 2021 年的 HA。通过定向进化,我们提高了这些 H1 mAbs 对当代 H1 毒株的中和效力。通过对四种不同抗原的 H1N1 病毒进行深度突变扫描,我们确定了潜在的病毒逃逸途径。对于 H3 mAb,我们使用低温电子显微镜确定了目标表位:一种 mAb 识别 H3 头部的一侧,其中包含 N133 聚糖和受体结合部位下方的一个口袋。另一种 H3 mAb 识别 HA 茎中的一个表位,该表位与之前表征的 mAb 重叠,但具有不同的抗体可变基因和识别模式。总之,这些 mAb 确定了广泛的亚型特异性 mAb 识别的共同位点,下一代疫苗可能会激发这些 mAb。
Conserved sites on the influenza H1 and H3 hemagglutinin recognized by human antibodies.
Monoclonal antibodies (mAbs) targeting the influenza hemagglutinin (HA) have the potential to be used as prophylactics or templates for next-generation vaccines that provide broad protection. Here, we isolated broad, subtype-neutralizing mAbs from human B cells targeting the H1 or H3 HA head as well as a unique mAb targeting the stem. The H1 mAbs target the previously defined lateral patch epitope on H1 HAs and recognize HAs from 1933 to 2021 in addition to a swine H1N1 virus with pandemic potential. Using directed evolution, we improved the neutralization potency of these H1 mAbs towards a contemporary H1 strain. Using deep mutational scanning of four antigenically distinct H1N1 viruses, we identified potential viral escape pathways. For the H3 mAbs we used cryo-EM to define the targeted epitopes: one mAb recognizes the side of the H3 head, accommodating the N133 glycan and a pocket underneath the receptor binding site. The other H3 mAb recognizes an epitope in the HA stem that overlaps with previously characterized mAbs, but with distinct antibody variable genes and mode of recognition. Collectively, these mAbs identify common sites recognized by broad, subtype-specific mAbs that may be elicited by next-generation vaccines.