SIGNALING PATHWAYS OF ARF GTPASES AND ARF GAPS

ARF GTPASE 和 ARF GAP 的信号传导途径

• 批准号: 6636350
• 负责人: Richard T Premont
• 金额: $ 25.56万
• 依托单位: DUKE UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2001
• 资助国家: 美国
• 起止时间: 2001-05-01 至 2006-04-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6636350
• 关键词: biological signal transduction; enzyme activity; guanine nucleotide binding protein; guanosinetriphosphatase activating protein; guanosinetriphosphatases; molecular cloning; protein localization; protein structure function; receptor coupling; tissue /cell culture; yeast two hybrid system

G protein-couple receptors activate heterotrimeric G proteins in an agonist-dependent manner. G protein-coupled receptor kinase (GRK) phosphorylation of these activated receptors facilitates arrestin protein binding, which prevents further G protein activation and results in uncoupling of activated receptors from G proteins. A noteworthy feature of this regulatory mechanism is that, like the G proteins themselves, GRKs bind to and are activated by agonist-occupied receptors. This membrane recruitment of GRKs may serve a direct signaling role in which GRKs act as adaptors to bring associated proteins to the membrane in response to receptor activation. Over-expression in HEK293 cells of GIT1, a novel GRK-associated protein, leads to significant alterations in agonist-dependent beta2-adrenergic receptor cAMP signaling, phosphorylation and sequestration. GIT proteins are a family of GTPase- activating proteins (GAPs) for ARF small GTP-binding proteins, and the cellular effects of GIT1 over-expression are blocked when the ARF GAP activity of GIT1 is ablated. GIT1 alters the function of G protein-coupled receptors that appear to internalize via clathrin-coated pits, but not of receptors that use other internalization mechanisms. These observations imply that ARF and the GIT family of ARF GAP proteins play an important role in regulation of receptor trafficking to and from the plasma membrane, and thereby influence receptor signaling. GIT proteins also interact in a complex with several distinct signaling and scaffolding proteins that may link GIT function to regulation of the cytoskeleton via the rac1 and cdc42 small GTP-binding proteins, as well as ARF. That GIT12 also interacts with GRKs further suggests that G protein-coupled receptors may utilize these interactions to influence the activity of various small GTP-binding proteins and their subsequent effectors. The main postulate underlying this study is that G protein-coupled receptors can signal via GRKs and GRK-associated proteins, such as GIT1. The major aims of this project are two-fold: to determine the role of GIT and ARF proteins in regulating G protein-coupled receptor signaling and in regulating G protein-coupled receptor cellular localization. The proposed experiments employ a combination of biochemical and cell biological techniques to define the functional significance of GIT proteins and GIT- associated proteins as regulators of heterotrimeric G protein coupled receptor signaling and function.

G蛋白偶联受体以激动剂依赖性方式激活异源三聚体G蛋白。这些活化受体的G蛋白偶联受体激酶（GRK）磷酸化促进抑制蛋白结合，其阻止G蛋白进一步活化并导致活化受体与G蛋白解偶联。这种调节机制的一个值得注意的特征是，像G蛋白本身一样，GRKs与激动剂占据的受体结合并被其激活。GRKs的这种膜募集可能起到直接信号传导作用，其中GRKs作为接头将相关蛋白质带到膜以响应受体活化。在HEK 293细胞中GIT 1（一种新的GRK相关蛋白）的过表达导致激动剂依赖性β 2-肾上腺素能受体cAMP信号传导、磷酸化和螯合的显著改变。GIT蛋白是ARF小GTP结合蛋白的GTP酶激活蛋白（GAP）家族，当GIT 1的ARF GAP活性被消除时，GIT 1过表达的细胞效应被阻断。GIT 1改变了G蛋白偶联受体的功能，这些受体似乎通过网格蛋白包被的小凹内化，但不改变使用其他内化机制的受体的功能。这些观察结果表明，ARF和ARF GAP蛋白的GIT家族在调节受体运输到质膜和从质膜，从而影响受体信号传导中发挥重要作用。GIT蛋白还与几种不同的信号和支架蛋白在复合物中相互作用，这些蛋白可能通过rac 1和cdc 42小GTP结合蛋白以及ARF将GIT功能与细胞骨架的调节联系起来。GIT 12也与GRKs相互作用，这进一步表明G蛋白偶联受体可能利用这些相互作用来影响各种小GTP结合蛋白及其后续效应物的活性。这项研究的主要假设是G蛋白偶联受体可以通过GRK和GRK相关蛋白（如GIT 1）发出信号。该项目的主要目的是双重的：确定GIT和ARF蛋白在调节G蛋白偶联受体信号传导和调节G蛋白偶联受体细胞定位中的作用。所提出的实验采用生物化学和细胞生物学技术的组合来定义GIT蛋白和GIT相关蛋白作为异源三聚体G蛋白偶联受体信号传导和功能的调节剂的功能意义。