肥大细胞中的时空信号转导。
Spatio-temporal signaling in mast cells.
机构信息
Department of Pathology, University of New Mexico Albuquerque, New Mexico, USA.
出版信息
Adv Exp Med Biol. 2011;716:91-106. doi: 10.1007/978-1-4419-9533-9_6.
Abstract
This chapter summarizes the evidence for localized signaling domains in mast cells and basophils, with a particular focus on the high affinity IgE receptor, FcεRI and its crosstalk with other membrane proteins. It is noteworthy that a literature spanning 30 years established the FcεRI as a model receptor for studying activation-induced changes in receptor diffusion and lipid raft association. Now a combination of high resolution microscopy methods, including immunoelectron microscopy and sophisticated fluorescence-based techniques, provide new insight into the nanoscale spatial and temporal aspects of receptor topography on the mast cell plasma membrane. Physical crosslinking of FcεRI with multivalent ligands leads to formation of IgE receptor clusters, termed "signaling patches," that recruit downstream signaling molecules. However, classes of receptors that engage solely withmono valent ligands can also form distinctive signaling patches. The dynamic relationships between receptor diffusion, aggregation state, clustering, signal initiation and signal strength are discussed in the context of these recent findings.
摘要
本章总结了肥大细胞和嗜碱性粒细胞中局部信号域的证据,特别关注高亲和力 IgE 受体 FcεRI 及其与其他膜蛋白的相互作用。值得注意的是,跨越 30 年的文献确立了 FcεRI 作为研究激活诱导的受体扩散和脂筏关联变化的模型受体。现在,高分辨率显微镜方法的结合,包括免疫电子显微镜和复杂的荧光基础技术,为肥大细胞质膜上受体拓扑结构的纳米级空间和时间方面提供了新的见解。FcεRI 与多价配体的物理交联导致 IgE 受体簇的形成,称为“信号斑”,募集下游信号分子。然而,仅与单价配体结合的受体类也可以形成独特的信号斑。在这些新发现的背景下,讨论了受体扩散、聚集状态、聚类、信号起始和信号强度之间的动态关系。
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