Hyun-Kyu Choi, Stefano Travaglino, Matthias Münchhalfen, Richard Görg, Zhe Zhong, Jintian Lyu, David M. Reyes-Aguilar, Jürgen Wienands, Ankur Singh, Cheng Zhu
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引用次数: 0
摘要
B 细胞的成熟取决于 T 细胞和 B 细胞之间的同源相互作用。在与 T 细胞上的 CD40 配体(CD40L)相互作用时,CD40 与 B 细胞抗原受体(BCR)信号一起传递成本刺激信号,以调节亲和力成熟和抗体类别转换。影响 CD40-CD40L 相互作用的突变会导致异常抗体反应,这种免疫缺陷被称为 X 连锁高 IgM 综合征(X-HIgM)。在这里,我们研究了 CD40 介导的 B 细胞机械传导,这种传导可能发生在 B 细胞与 T 细胞的物理接触过程中。我们发现,CD40与CD40L形成的捕捉键在较大的力作用下会持续更长时间,B细胞和T细胞都会对CD40-CD40L键施加张力,力会增强CD40信号转导和抗体类别转换。X-HIgM CD40L 基因突变会损害捕捉键的形成,抑制内源性张力,减少受力增强的 CD40 信号传导,从而导致抗体类别转换的缺陷。我们的研究结果突显了机械传导在 CD40 功能中的作用,并为 X-HIgM 综合征的内在机制提供了见解。
Mechanotransduction governs CD40 function and underlies X-linked hyper-IgM syndrome
B cell maturation depends on cognate interactions between the T and B cells. Upon interaction with CD40 ligand (CD40L) on T cells, CD40 delivers costimulatory signals alongside B cell antigen receptor (BCR) signaling to regulate affinity maturation and antibody class switch. Mutations affecting CD40-CD40L interactions cause abnormal antibody responses in immunodeficiencies known as X-linked hyper-IgM syndrome (X-HIgM). Here, we study the CD40-mediated mechanotransduction in B cells, which likely occurs during their physical contacts with T cells. We found that CD40 forms catch bond with CD40L that lasts longer at larger forces, both B and T cells exert tension on CD40-CD40L bonds, and force enhances CD40 signaling and antibody class switch. X-HIgM CD40L mutations impair catch bond formation, suppress endogenous tension, and reduce force-enhanced CD40 signaling, leading to deficiencies in antibody class switch. Our findings highlight the role of mechanotransduction in CD40 function and provide insights into the mechanisms underlying X-HIgM syndrome.
期刊介绍:
Science Advances, an open-access journal by AAAS, publishes impactful research in diverse scientific areas. It aims for fair, fast, and expert peer review, providing freely accessible research to readers. Led by distinguished scientists, the journal supports AAAS's mission by extending Science magazine's capacity to identify and promote significant advances. Evolving digital publishing technologies play a crucial role in advancing AAAS's global mission for science communication and benefitting humankind.