Regulation of immune cell vesicular traffic and exocytosis by Rho GTPases

Rho GTPases 对免疫细胞囊泡运输和胞吐作用的调节

• 批准号: RGPIN-2019-05466
• 负责人: Eitzen, Gary
• 金额: $ 3.64万
• 依托单位: University of Alberta
• 依托单位国家: 加拿大
• 项目类别: Discovery Grants Program - Individual
• 财政年份: 2020
• 资助国家: 加拿大
• 起止时间: 2020-01-01 至 2021-12-31
• 项目状态: 已结题
• 来源: https://www.nserc-crsng.gc.ca/ase-oro/Details-Detailles_eng.asp?id=715563
• 关键词: Regulation; immune; cell; vesicular; traffic

My research program studies the regulation of intracellular vesicular traffic by Rho GTPases. Rho proteins, such as Rho, Rac and Cdc42, belong to the ras-GTPase superfamily. They function as molecular switches, cycling between inactive (GDP-bound) and active (GTP-bound) states, to control numerous cellular processes. Our hypothesis is that Rho GTPases serve a pivotal role in immune cell pro-inflammatory processes. This proposal is focused on how Rho GTPases control the release of pro-inflammatory mediators, via exocytosis, from mast cells. Mast cells are tissue-resident granulocytic immune cells. Because of their positioning in tissues at environmental interfaces they are deemed sentinels of the immune system and play a key protective role. Mast cells are particularly good model cells to study the basic mechanism of exocytosis. They have several surface receptors with known ligands that can be used to stimulate cells. The transition between resting and stimulated cells is activated by membrane proximal src kinases that relay signals to several downstream pathways culminating in granule exocytosis. Here we have focused our study on Rho signaling in mast cells since several proteins in this pathway are predominantly or exclusively expressed in immune cells. Long-term goal: to define the Rho signaling pathway(s) that regulate immune cell pro-inflammatory processes. Short term goals: Aim 1) To identify pro-inflammatory Rho GEFs Rho GEFs are activators that transduce upstream activation signals (eg Fc receptor ligation) into downstream pro-inflammatory process like granule exocytosis via Rho signaling. We will characterize the effect of genetic disruption of immune-cell specific GEFs in mast cells to identify Rho GEFs needed for exocytosis. Aim 2) To define the role of RhoGDI in mast cell exocytosis RhoGDIs are thought to be inhibitors of Rho proteins via binding and sequestration in the cytosol. However, our studies implicate them as facilitators of Rho signaling that regulate spatial delivery to sites of activation. Mast cells abundantly express RhoGDI1 and RhoGDI2, which likely have distinct functions since we have shown that they differentially localize. We will examine Rho protein/RhoGDI complex formation and disassociation mechanisms during mast cell activation. Aim 3) To characterize downstream mechanisms of mast cell secretory granule exocytosis We will use live-cell imaging to characterize the role of actin in exocytosis. We have live-cell probes that can be used to evaluate the role of Rac signaling for F-actin remodeling, granule mobilization and release of granule contents. Significance: Our results will define Rho signaling factors that regulate specific membrane trafficking steps. Biochemical analyses will allow us to ascribe functional roles to identified factors and live-cell imaging will show how they impact vesicular traffic. Overall, these discoveries are likely to be universally applicable to exocytosis in many cell types.

我的研究项目是研究Rho GTPases对细胞内囊泡交通的调节。Rho蛋白，如Rho、Rac和Cdc 42，属于ras-GTdR超家族。它们作为分子开关，在非活性（GDP结合）和活性（GTP结合）状态之间循环，以控制许多细胞过程。我们的假设是Rho GTP酶在免疫细胞促炎过程中起关键作用。该建议集中于Rho GTP酶如何通过胞吐作用控制肥大细胞释放促炎介质。 肥大细胞是组织驻留的粒细胞免疫细胞。由于它们位于环境界面的组织中，它们被认为是免疫系统的哨兵，并发挥关键的保护作用。肥大细胞是研究胞吐作用基本机制的理想模型细胞。它们有几种表面受体，已知配体可用于刺激细胞。静息细胞和受刺激细胞之间的转换是由近膜src激酶激活的，该激酶将信号传递到几个下游途径，最终导致颗粒胞吐。在这里，我们把我们的研究集中在肥大细胞中的Rho信号传导上，因为该途径中的几种蛋白质主要或专门在免疫细胞中表达。 长期目标：确定调节免疫细胞促炎过程的Rho信号通路。 短期目标： 目的1）鉴定促炎性Rho GEFs Rho GEF是通过Rho信号传导将上游活化信号（例如Fc受体连接）转化为下游促炎过程（如颗粒胞吐）的活化剂。我们将描述肥大细胞中免疫细胞特异性GEF的遗传破坏的影响，以确定胞吐作用所需的Rho GEF。 目的2）探讨RhoGDI在肥大细胞胞吐中的作用 RhoGDIs被认为是Rho蛋白的抑制剂，通过结合和螯合在细胞溶质中。然而，我们的研究暗示它们是Rho信号传导的促进者，调节空间传递到激活位点。肥大细胞大量表达RhoGDI 1和RhoGDI 2，它们可能具有不同的功能，因为我们已经表明它们的差异定位。我们将研究肥大细胞活化过程中Rho蛋白/RhoGDI复合物的形成和解离机制。 目的3）研究肥大细胞分泌颗粒胞吐的下游机制 我们将使用活细胞成像来表征肌动蛋白在胞吐中的作用。我们有活细胞探针，可用于评估的作用，Rac信号的F-肌动蛋白重塑，颗粒动员和颗粒内容物的释放。 意义：我们的研究结果将定义Rho信号转导因子，调节特定的膜运输步骤。生物化学分析将使我们能够将功能作用归因于已识别的因子，活细胞成像将显示它们如何影响囊泡交通。总的来说，这些发现可能普遍适用于许多细胞类型中的胞吐作用。