Hye-Ran Kim, Jeong-Su Park, Won-Chang Soh, Na-Young Kim, Hyun-Yoong Moon, Ji-Su Lee, Chang-Duk Jun
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引用次数: 0
Abstract
Microvilli are outer membrane organelles that contain cross-linked filamentous actin. Unlike well-characterized epithelial microvilli, T-cell microvilli are dynamic similar to those of filopodia, which grow and shrink intermittently via the alternate actin-assembly and -disassembly. T-cell microvilli are specialized for sensing Ags on the surface of Ag-presenting cells (APCs). Thus, these finger-shaped microprotrusions contain many signaling-related proteins and can serve as a signaling platforms that induce intracellular signals. However, they are not limited to sensing external information but can provide sites for parts of the cell-body to tear away from the cell. Cells are known to produce many types of extracellular vesicles (EVs), such as exosomes, microvesicles, and membrane particles. T cells also produce EVs, but little is known about under what conditions T cells generate EVs and which types of EVs are released. We discovered that T cells produce few exosomes but release large amounsts of microvilli-derived particles during physical interaction with APCs. Although much is unanswered as to why T cells use the same organelles to sense Ags or to produce EVs, these events can significantly affect T cell fate, including clonal expansion and death. Since TCRs are localized at microvilli tips, this membrane event also raises a new question regarding long-standing paradigm in T cell biology; i.e., surface TCR downmodulation following T cell activation. Since T-cell microvilli particles carry T-cell message to their cognate partner, these particles are termed T-cell immunological synaptosomes (TISs). We discuss the potential physiological role of TISs and their application to immunotherapies.
微绒毛是含有交联丝状肌动蛋白的外膜细胞器。与特征明确的上皮微绒毛不同,T细胞微绒毛具有与丝状体相似的动态特性,丝状体通过交替的肌动蛋白组装和解组装间歇性地生长和收缩。T 细胞微绒毛专门感应呈递抗原细胞(APC)表面的抗原。因此,这些指状微突起含有许多与信号相关的蛋白质,可作为诱导细胞内信号的信号平台。然而,它们并不局限于感知外部信息,还能为细胞体部分撕离细胞提供场所。众所周知,细胞会产生多种类型的细胞外囊泡 (EV),如外泌体、微囊泡和膜颗粒。T细胞也会产生EVs,但人们对T细胞在什么条件下产生EVs以及释放哪些类型的EVs知之甚少。我们发现,T 细胞产生的外泌体很少,但在与 APC 的物理相互作用过程中会释放大量微绒毛衍生颗粒。尽管T细胞为什么使用相同的细胞器来感知Ags或产生EVs还有很多问题没有解答,但这些事件会极大地影响T细胞的命运,包括克隆扩增和死亡。由于 TCR 定位于微绒毛顶端,这一膜事件也为 T 细胞生物学中长期存在的范例提出了一个新问题,即 T 细胞活化后表面 TCR 下调。由于 T 细胞微绒毛颗粒将 T 细胞信息传递给它们的同源伙伴,因此这些颗粒被称为 T 细胞免疫突触体(TISs)。我们将讨论 TISs 的潜在生理作用及其在免疫疗法中的应用。
期刊介绍:
Immune Network publishes novel findings in basic and clinical immunology and aims to provide a medium through which researchers in various fields of immunology can share and connect. The journal focuses on advances and insights into the regulation of the immune system and the immunological mechanisms of various diseases. Research that provides integrated insights into translational immunology is given preference for publication. All submissions are evaluated based on originality, quality, clarity, and brevity
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