The generation of senescent-like CD4+ EMRA T cells in T2D and their contribution to poor COVID-19 vaccine responses

C. Garrod-Ketchley, Laure Mourgue d'Algue, Katie Littlewood, Gillian Hood, Anne Worthington, Melanie Pattrick, Caroline Sutcliffe, Zoi Valla, Noorshad Joti, Udeshi Zalak, Amy Edwards, Sarah Finer, S. Henson
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Abstract

CD4+ T cells are essential for protection from viral pathogens, such as SARS-CoV-2. However, an increase in the dysfunction CD4+ EMRA subset is likely to hinder the immune response towards viruses. We show here that CD4+ EMRAs are increased with elevated blood glucose, such as people living with T2D, which alters mitochondrial function and causes the differentiation of CD4+ T cells, reducing the immune response to COVID-19 vaccination. CD4+ T cells were examined for senescence, their insulin dynamics, and mitochondrial function after in vitro culture of high and low glucose media, with or without rotenone or mitoQ. Serum samples were used to assess circulating inflammation and IgG antibodies to SARS-CoV-2. People living with T2D had increased expression of CD4+ EMRA T cells, the appearance of which correlated with increasing blood glucose values. The T2D cohort showed a reduced mitochondrial membrane potential and increased mtROS production. These results were mimicked using high glucose media which accelerated CD4+ T cell differentiation and reduced MMP. People living with T2D (non-hyperglycaemic and hyperglycaemic) had altered expression of inflammatory mediators. CD4+ EMRA cells did not respond to COVID-19 peptides, and people with T2D had a reduced T cell and antibody response to SARS-CoV-2 S1 spike protein. We have shown that senescent-like CD4+ EMRA influence the viral response in SARS-CoV-2 and that CD4+ EMRAs may arise from faulty mitochondrial dynamics due to increased environmental glucose. Further study is required to determine the direct link increased glucose has with CD4+ EMRA formation.
T2D 中衰老样 CD4+ EMRA T 细胞的生成及其对 COVID-19 疫苗应答不良的贡献
CD4+ T 细胞是抵御 SARS-CoV-2 等病毒病原体的关键。然而,功能障碍 CD4+ EMRA 亚群的增加可能会阻碍对病毒的免疫反应。我们在此表明,CD4+ EMRA 会随着血糖升高而增加,例如患有 T2D 的人,血糖升高会改变线粒体功能,导致 CD4+ T 细胞分化,从而降低对 COVID-19 疫苗接种的免疫反应。在使用或不使用鱼藤酮或 mitoQ 的情况下,CD4+ T 细胞经过高、低葡萄糖培养基的体外培养后,其衰老、胰岛素动态和线粒体功能得到了检测。血清样本用于评估循环炎症和 SARS-CoV-2 IgG 抗体。患有 T2D 的人的 CD4+ EMRA T 细胞表达增加,其出现与血糖值的增加有关。T2D人群的线粒体膜电位降低,mtROS生成增加。使用高糖培养基可模拟这些结果,因为高糖培养基可加速 CD4+ T 细胞分化并减少 MMP。T2D患者(非高血糖和高血糖)的炎症介质表达发生了改变。CD4+ EMRA细胞对COVID-19多肽没有反应,T2D患者的T细胞和抗体对SARS-CoV-2 S1尖峰蛋白的反应减弱。我们已经证明,衰老样 CD4+ EMRA 会影响 SARS-CoV-2 的病毒反应,而 CD4+ EMRA 可能是由于环境中葡萄糖增加导致线粒体动力学发生故障而产生的。要确定葡萄糖增加与 CD4+ EMRA 形成之间的直接联系,还需要进一步研究。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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