Structural basis of G protein mediated signaling

G 蛋白介导的信号传导的结构基础

• 批准号: 6738084
• 负责人: David G Lambright
• 金额: $ 31.12万
• 依托单位: UNIV OF MASSACHUSETTS MED SCH WORCESTER
• 依托单位国家: 美国
• 财政年份: 1998
• 资助国家: 美国
• 起止时间: 1998-05-01 至 2007-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6738084
• 关键词: SDS polyacrylamide gel electrophoresis; X ray crystallography; conformation; endocytosis; enzyme structure; enzyme substrate complex; functional /structural genomics; guanine nucleotide binding protein; guanine nucleotide exchange factors; guanosinetriphosphatases; precipitation; protein binding; protein protein interaction; protein sequence; protein structure function; site directed mutagenesis; surface plasmon resonance; transcription factor; vesicle /vacuole

DESCRIPTION (provided by applicant): As critical regulators of vesicular trafficking, Rab proteins comprise the largest GTPase family, with thirty-seven functionally distinct members and another twenty isoforms in the human genome. Like other GTPases, Rab proteins cycle between inactive (GDP bound) and active (GTP bound) states. Activation and inactivation are regulated by guanine nucleotide exchange factors (GEFs) and GTPase activating proteins (GAPs), respectively. Once activated, Rab GTPases interact with effector proteins involved in vesicle budding, cargo sorting, transport, tethering, docking and fusion. The specificity of Rab interactions with effectors and regulatory factors is hypothesized to play a central role with respect to the fidelity of membrane trafficking. However, an increasing number of effectors, GEFs and GAPs are known to interact with two or more Rab GTPases. Moreover, the determinants for recognition of Rab GTPases are elaborate, involving both direct and indirect structural mechanisms. The long range objective of this proposal is to understand the structural bases and mechanisms underlying the network of protein-protein interactions with Rab GTPases and how structurally diverse regulatory factors and effectors recognize Rab GTPases. Capitalizing on the information available from genomic sequencing projects and building on extensive preliminary data, the aims of this proposal address the recognition problem from a global, family wide perspective. Specifically, we will: (Aim 1) determine high resolution crystal structures of as many Rab GTPases as possible in the active and inactive conformations; (Aim 2) determine the specificity of selected effectors and regulatory factors for the entire Rab GTPase family; and (Aim 3) determine the structural bases for interaction of effectors and regulatory factors with Rab GTPases that function in the endocytic and recycling pathways. The combined results will provide novel, family wide insight regarding the determinants for recognition of Rab GTPases. Defects in Rab GTPases and their accessory factors have been implicated in several genetically linked disorders and likely contribute to the pathology of complex disease states including diabetes and cancer. Consequently, Rab accessory and regulatory factors are potential targets for mechanism based pharmacological interdiction.

描述(由申请人提供)： 作为囊泡运输的关键调节因子，Rab蛋白是最大的GTP酶家族，在人类基因组中有37个功能不同的成员和20个亚型。与其他GTP酶一样，Rab蛋白在非活性(GDP结合)和活性(GTP结合)状态之间循环。激活和失活分别受鸟嘌呤核苷酸交换因子(GEF)和GTP酶激活蛋白(GAP)的调节。一旦被激活，Rab GTP酶就与参与囊泡萌发、货物分拣、运输、拴系、对接和融合的效应蛋白相互作用。Rab与效应器和调节因子相互作用的特异性被认为在膜运输的保真度方面发挥着核心作用。然而，越来越多的效应器、GEF和GAP被认为与两个或更多的Rab GTP酶相互作用。此外，对识别Rab GTP酶的决定因素进行了详细的阐述，涉及直接和间接结构机制。这项建议的长期目标是了解与Rab GTP酶的蛋白质-蛋白质相互作用网络的结构基础和机制，以及结构上不同的调节因子和效应器如何识别Rab GTP酶。这项提案的目的是利用基因组测序项目提供的信息并建立在广泛的初步数据基础上，从全球和家庭范围的角度解决识别问题。具体地说，我们将：(目标1)确定活性构象和非活性构象中尽可能多的Rab GTP酶的高分辨晶体结构；(目标2)确定选定的效应物的特异性和整个Rab GTP酶家族的调节因子；以及(目的3)确定效应器和调节因子与在内吞和循环途径中起作用的Rab GTP酶相互作用的结构基础。合并的结果将提供新的，家庭范围的关于识别Rab GTP酶的决定因素的见解。Rab GTP酶及其辅助因子的缺陷与几种遗传相关疾病有关，并可能导致包括糖尿病和癌症在内的复杂疾病的病理。因此，RAB辅助和调节因子是基于机制的药物阻断的潜在靶点。