Department of Microbiology and Immunology, University of Michigan, Ann Arbor, Michigan, USA.
Department of Molecular Genetics and Microbiology, College of Medicine, University of Floridagrid.15276.37, Gainesville, Florida, USA.
mBio. 2022 Apr 26;13(2):e0017522. doi: 10.1128/mbio.00175-22. Epub 2022 Apr 11.
Human norovirus (HNoV) is a global health and socioeconomic burden, estimated to infect every individual at least five times during their lifetime. The underlying mechanism for the potential lack of long-term immune protection from HNoV infections is not understood and prompted us to investigate HNoV susceptibility of primary human B cells and its functional impact. Primary B cells isolated from whole blood were infected with HNoV-positive stool samples and harvested at 3 days postinfection (dpi) to assess the viral RNA yield by reverse transcriptase quantitative PCR (RT-qPCR). A 3- to 18-fold increase in the HNoV RNA yield was observed in 50 to 60% of donors. Infection was further confirmed in B cells derived from splenic and lymph node biopsy specimens. Next, we characterized infection of whole-blood-derived B cells by flow cytometry in specific functional B cell subsets (naive CD27 IgD, memory-switched CD27 IgD, memory-unswitched CD27 IgD, and double-negative CD27 IgD cells). While the susceptibilities of the subsets were similar, changes in the B cell subset distribution upon infection were observed, which were also noted after treatment with HNoV virus-like particles and the predicted recombinant NS1 protein. Importantly, primary B cell stimulation with the predicted recombinant NS1 protein triggered B cell activation and induced metabolic changes. These data demonstrate that primary B cells are susceptible to HNoV infection and suggest that the NS1 protein can alter B cell activation and metabolism , which could have implications for viral pathogenesis and immune responses . Human norovirus (HNoV) is the most prevalent causative agent of gastroenteritis worldwide. Infection results in a self-limiting disease that can become chronic and severe in the immunocompromised, the elderly, and infants. There are currently no approved therapeutic and preventative strategies to limit the health and socioeconomic burdens associated with HNoV infections. Moreover, HNoV does not elicit lifelong immunity as repeat infections are common, presenting a challenge for vaccine development. Given the importance of B cells for humoral immunity, we investigated the susceptibility and impact of HNoV infection on human B cells. We found that HNoV replicates in human primary B cells derived from blood, spleen, and lymph node specimens, while the nonstructural protein NS1 can activate B cells. Because of the secreted nature of NS1, we put forward the hypothesis that HNoV infection can modulate bystander B cell function with potential impacts on systemic immune responses.
人类诺如病毒(HNoV)是一种全球性的健康和社会经济负担,据估计,每个人在其一生中至少会感染 5 次。目前尚不清楚为什么 HNoV 感染不能提供长期的免疫保护,这促使我们研究原发性人 B 细胞对 HNoV 的易感性及其功能影响。从全血中分离出原代 B 细胞,用 HNoV 阳性粪便样本感染,并在感染后 3 天(dpi)收获,通过逆转录定量 PCR(RT-qPCR)评估病毒 RNA 产量。在 50%至 60%的供体中,HNoV RNA 产量增加了 3 至 18 倍。在来源于脾和淋巴结活检标本的 B 细胞中也进一步证实了感染。接下来,我们通过流式细胞术在特定的功能性 B 细胞亚群(幼稚 CD27 IgD、记忆性转换 CD27 IgD、记忆性未转换 CD27 IgD 和双阴性 CD27 IgD 细胞)中对全血来源的 B 细胞的感染进行了表征。虽然各亚群的易感性相似,但在感染后观察到 B 细胞亚群分布发生变化,在用 HNoV 病毒样颗粒和预测的重组 NS1 蛋白处理后也观察到了这种变化。重要的是,用预测的重组 NS1 蛋白刺激原代 B 细胞会触发 B 细胞激活并诱导代谢变化。这些数据表明,原代 B 细胞易受 HNoV 感染,并且提示 NS1 蛋白可以改变 B 细胞的激活和代谢,这可能对病毒发病机制和免疫反应有影响。人类诺如病毒(HNoV)是全球最常见的胃肠炎致病因子。感染导致自限性疾病,在免疫功能低下者、老年人和婴儿中可能会变为慢性和严重疾病。目前尚无批准的治疗和预防策略可限制与 HNoV 感染相关的健康和社会经济负担。此外,由于重复感染很常见,HNoV 不会引起终身免疫,这给疫苗开发带来了挑战。鉴于 B 细胞对体液免疫的重要性,我们研究了 HNoV 感染对人 B 细胞的易感性和影响。我们发现 HNoV 在源自血液、脾脏和淋巴结标本的原代人 B 细胞中复制,而非结构蛋白 NS1 可以激活 B 细胞。由于 NS1 的分泌性质,我们提出假说,即 HNoV 感染可以调节旁观者 B 细胞的功能,从而对全身免疫反应产生潜在影响。
