Store Operated Calcium Channels Function in Vascular Smooth Muscle

血管平滑肌中存储操纵的钙通道功能

• 批准号: 8320293
• 负责人: Salvatore Mancarella
• 金额: $ 1.66万
• 依托单位: TEMPLE UNIV OF THE COMMONWEALTH
• 依托单位国家: 美国
• 财政年份: 2010
• 资助国家: 美国
• 起止时间: 2010-09-01 至 2012-12-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8320293
• 关键词: Animals; Blood Vessels; Calcineurin; Calcium; Calcium Channel; Cell Proliferation; Disease; Dominant-Negative Mutation; Electrophysiology (science); Functional disorder; Gene Expression; Growth; Life; Mediating; Mus; Myopathy; NFAT Pathway; Nature; Pathology; Pathway interactions; Phenotype; Physiological; Physiology; Play; Process; Proteins; Regulation; Role; STIM1 gene; Signal Transduction; Smooth Muscle Myocytes; Testing; Therapeutic; Vascular Smooth Muscle; Work; cellular imaging; insight; novel; prevent; response; spatiotemporal; vascular smooth muscle cell proliferation

The project aims to understand how unique signatures of Ca[2+] mediated by STIM proteins control the proliferation of vascular smooth muscle cells (VSMC). Ca[2+] signals play a crucial role in not only controlling vascular contraction but also in regulating the growth and proliferation smooth muscle cells. The work examines the function of two crucial proteins, STIM1 and STIM2, that sense changes in the Ca[2+] within the SR lumen of VSMCS, and through a highly coordinated translocation process, move into small specialized junctions between the SR and PM. STIM proteins directly activate Ca[2+] channels in the PM and hence control Ca[2+] entry into VSMCS. The project has two specific aims: Aim 1: To examine the distinct functional roles of STIM1 and STIM2 proteins in mediating Ca[2+] signals in VSMCs. These studies will test the hypothesis that the STIM2 phenotype in VSMCs from SM-STIM1-KO animals has a ¿Ca[2+] signature response¿ important in mediating distinct physiological differences in VSMC proliferation. The experimental approach to test this hypothesis utilizes a combination of live cellular imaging, expression of dominant negative channel proteins, electrophysiology, and novel Ca[2+] probes to assess the functional roles of STIM-mediated Ca[2+] signals in VSMCs and examines: (a) the ¿temporal Ca[2+] signature¿ of Ca[2+] signals in VSMCs from SM-STIM1- KO mice. (b) the ¿spatial Ca[2+] signature¿ of Ca[2+] signals in VSMCs from SM-STIM1-KO mice: and (c) how luminal SR levels reflect the STIM-mediated Ca[2+] signature in VSMCs. Aim 2: To determine how STIM-induced Ca[2+] signature responses regulate proliferative pathways in VSMCs. The hypothesis to be tested is that STIM-specific Ca[2+] entry signals control gene expression and proliferative VSMC responses through the calcineurin/NFAT axis. The aims are to determine (a) how STIM proteins control expression of components of the calcineurin NFAT pathway in proliferative VSMC. ; (b) (b) STIM-mediated Ca[2+] signaling occurs during mitogenic stimulation; (c) how STIM proteins control the NFAT translocation/gene expression pathway.

该项目旨在了解STIM蛋白介导的Ca[2+]的独特特征如何控制血管平滑肌细胞（VSMC）的增殖。Ca[2+]信号不仅在控制血管收缩中起重要作用，而且在调节平滑肌细胞的生长和增殖中也起重要作用。这项工作检查了两个关键蛋白STIM 1和STIM 2的功能，这两个蛋白感知VSMCS SR腔内Ca[2+]的变化，并通过高度协调的易位过程，进入SR和PM之间的小的专门连接处。STIM蛋白直接激活PM中的Ca[2+]通道，从而控制Ca[2+]进入VSMCS。目的1：研究STIM 1和STIM 2蛋白在VSMCs介导Ca[2+]信号中的不同功能作用。这些研究将检验SM-STIM 1-KO动物的VSMC中的STIM 2表型具有在介导VSMC增殖的不同生理差异中重要的<$Ca[2+]签名响应<$的假设。检验这一假设的实验方法利用活细胞成像、显性负通道蛋白表达、电生理学和新型Ca[2+]探针的组合来评估STIM介导的Ca[2+]信号在VSMC中的功能作用，并检查：（a）来自SM-STIM 1- KO小鼠的VSMC中Ca[2 +]信号的时间Ca[2 +]特征。(b)该来自SM-STIM 1-KO小鼠的VSMC中Ca[2+]信号的空间Ca[2 +]特征：以及（c）管腔SR水平如何反映VSMC中STIM介导的Ca[2+]特征。目的2：研究STIM诱导的Ca[2+]信号反应对血管平滑肌细胞增殖的调控作用。有待检验的假设是，STIM特异性Ca[2+]进入信号通过钙调神经磷酸酶/NFAT轴控制基因表达和增殖VSMC反应。目的是确定（a）STIM蛋白如何控制增殖VSMC中钙调神经磷酸酶NFAT途径组分的表达。;（B）（B）促有丝分裂刺激期间发生的STIM介导的Ca[2+]信号传导;（c）STIM蛋白如何控制NFAT易位/基因表达途径。