SARS-CoV-2 变体的 S1 亚基在人脑内皮细胞中不同程度地触发 IL-6 信号通路,并对小胶质细胞活化产生下游影响

Michael Stangis, Daniel Adesse, Bhavya Sharma, Eduardo Castro, Kush Kumar, Neil Kumar, Masha Minevich, Michal Toborek
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摘要

摘要 目的 在COVID-19感染和COVID后的情况下,脑血管并发症很普遍;因此,SARS-CoV-2与脑微血管细胞的相互作用成为一个新的关注点。方法 我们研究了人脑微血管内皮细胞(HBMEC)--血脑屏障(BBB)的主要结构元素--暴露于不同 SARS-CoV-2 变体的尖峰蛋白 S1 亚基后的炎症反应。具体来说,我们使用的 S1 亚基来自 2020 年 3 月开始广泛传播的 SARS-CoV-2 D614 变体和 2021 年初开始广泛传播的 Delta 变体。然后,我们进一步研究了因暴露于 S1 而产生的 HBMEC 分泌组对小胶质细胞促炎反应的影响。结果 用来自 D614 变体和来自 Delta 变体的 S1 处理会导致 IL-6 信号通路的不同改变。此外,暴露于 D614 变体的 S1 亚基后获得的 HBMEC 分泌组激活了小胶质细胞中的 STAT3,这表明来自内皮细胞的促炎信号可传播到神经血管单元的其他细胞。总之,这些结果表明,不同的 SARS-CoV-2 变体有可能诱发独特的细胞特征,因此需要采取个性化的治疗策略。这项研究的结果还使人们进一步认识到 COVID-19 中涉及脑微血管的促炎反应,并展示了周围的小胶质细胞如何对每种独特的变体衍生反应做出反应。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
The S1 subunits of SARS-CoV-2 variants differentially trigger the IL-6 signaling pathway in human brain endothelial cells and downstream impact on microglia activation
Abstract Objectives Cerebrovascular complications are prevalent in COVID-19 infection and post-COVID conditions; therefore, interactions of SARS-CoV-2 with cerebral microvascular cells became an emerging concern. Methods We examined the inflammatory responses of human brain microvascular endothelial cells (HBMEC), the main structural element of the blood–brain barrier (BBB), following exposure to the S1 subunit of the spike protein of different SARS-CoV-2 variants. Specifically, we used the S1 subunit derived from the D614 variant of SARS-CoV-2, which started widely circulating in March of 2020, and from the Delta variant, which started widely circulating in early 2021. We then further examined the impact of the HBMEC secretome, produced in response to the S1 exposure, on microglial proinflammatory responses. Results Treatment with S1 derived from the D614 variant and from the Delta variant resulted in differential alterations of the IL-6 signaling pathway. Moreover, the HBMEC secretome obtained after exposure to the S1 subunit of the D614 variant activated STAT3 in microglial cells, indicating that proinflammatory signals from endothelial cells can propagate to other cells of the neurovascular unit. Overall, these results indicate the potential for different SARS-CoV-2 variants to induce unique cellular signatures and warrant individualized treatment strategies. The findings from this study also bring further awareness to proinflammatory responses involving brain microvasculature in COVID-19 and demonstrate how the surrounding microglia react to each unique variant derived response.
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