Carina Saggau, Petra Bacher, Daniela Esser, Mahdi Rasa, Silja Meise, Nicola Mohr, Nora Kohlstedt, Andreas Hutloff, Sarah-Sophie Schacht, Justina Dargvainiene, Gabriela Rios Martini, Klarissa H. Stürner, Ina Schröder, Robert Markewitz, Johannes Hartl, Maria Hastermann, Ankelien Duchow, Patrick Schindler, Mareike Becker, Carolin Bautista, Alexander Scheffold
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引用次数: 0
摘要
促炎性自身抗原特异性 CD4+ T 辅助细胞(auto-Th)是自身免疫性疾病(AIDs)的核心协调者。我们的目标是通过结合基于人类白细胞抗原(HLA)四聚体和基于活化的多维体外分析,确定这些细胞在人类自身免疫性疾病中的特征。在水肿素4-抗体阳性的神经脊髓炎视谱系障碍(AQP4-NMOSD)患者中,自身Th细胞表达CD154,但增殖能力和促炎细胞因子却大大降低。相反,衰竭相关共抑制受体与典型调节性 T 细胞(Treg)转录因子 FOXP3 一起表达。自体Th细胞在体外对检查点抑制做出了反应,并提供了强有力的B细胞帮助。在可溶性肝抗原(SLA)-抗体-自身免疫性肝炎和 BP180-抗体阳性大疱性类天疱疮、肝脏和皮肤的 AID 中分别发现了具有相同衰竭样(ThEx)表型的细胞。虽然最初是在癌症和慢性感染中描述的,但我们的数据表明 T 细胞衰竭是适应各种类型 AID 的慢性(自我)刺激的共同机制,并将衰竭的 CD4+ T 细胞与体液自身免疫反应联系起来,从而对靶向治疗产生影响。
Autoantigen-specific CD4+ T cells acquire an exhausted phenotype and persist in human antigen-specific autoimmune diseases
Pro-inflammatory autoantigen-specific CD4+ T helper (auto-Th) cells are central orchestrators of autoimmune diseases (AIDs). We aimed to characterize these cells in human AIDs with defined autoantigens by combining human leukocyte antigen (HLA)-tetramer-based and activation-based multidimensional ex vivo analyses. In aquaporin4-antibody-positive neuromyelitis optica spectrum disorder (AQP4-NMOSD) patients, auto-Th cells expressed CD154, but proliferative capacity and pro-inflammatory cytokines were strongly reduced. Instead, exhaustion-associated co-inhibitory receptors were expressed together with FOXP3, the canonical regulatory T cell (Treg) transcription factor. Auto-Th cells responded in vitro to checkpoint inhibition and provided potent B cell help. Cells with the same exhaustion-like (ThEx) phenotype were identified in soluble liver antigen (SLA)-antibody-autoimmune hepatitis and BP180-antibody-positive bullous pemphigoid, AIDs of the liver and skin, respectively. While originally described in cancer and chronic infection, our data point to T cell exhaustion as a common mechanism of adaptation to chronic (self-)stimulation across AID types and link exhausted CD4+ T cells to humoral autoimmune responses, with implications for therapeutic targeting.
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Immunity is a publication that focuses on publishing significant advancements in research related to immunology. We encourage the submission of studies that offer groundbreaking immunological discoveries, whether at the molecular, cellular, or whole organism level. Topics of interest encompass a wide range, such as cancer, infectious diseases, neuroimmunology, autoimmune diseases, allergies, mucosal immunity, metabolic diseases, and homeostasis.
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