TLR Signaling and Protein Fragment Complementation

TLR 信号传导和蛋白质片段互补

• 批准号: 6869550
• 负责人: PETER S TOBIAS
• 金额: $ 28.16万
• 依托单位: SCRIPPS RESEARCH INSTITUTE, THE
• 依托单位国家: 美国
• 财政年份: 2004
• 资助国家: 美国
• 起止时间: 2004-04-01 至 2007-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6869550
• 关键词: beta lactamase; biological signal transduction; enzyme activity; fluorescence; immunoprecipitation; molecular assembly /self assembly; protein protein interaction; proteins; receptor binding; toll like receptor

DESCRIPTION (provided by applicant): Receptors are the molecules that inform the inside of a cell what is going on outside. There are three critical steps to the function of a cell surface receptor. The first is ligand binding, the second is transmembrane signal transduction, the third is assembly or activation of an intracellular signal initiation complex. In this proposal we outline the use of a novel approach to define TLR receptor assembly. TLRs are now widely appreciated as detectors of a broad variety of ligands, exogenous as well as endogenous. Their activation initiates innate immune inflammatory responses and promotes adaptive immune responses as well. On the positive side, they are critical for detection of infection and on the negative, are involved in septic shock. Understanding their mechanisms of activation and intracellular signaling is important for understanding, and perhaps altering, the consequences of their activation. Alternate means of activating them could also have value, perhaps as novel adjuvants. Typical, and useful, approaches to understanding assembly of a signaling complex by the intracellular domain of a receptor have been varied; they include such approaches as the yeast two-hybrid system, coimmunoprecipitation, and site directed mutagenesis. To this group, using the context of TLRs, we propose to add protein fragment complementation. Selected fragments of many proteins can associate to produce functional bimolecular complexes. In one approach an enzyme activity is generated when inactive fragments of an enzyme are brought together in an orientation such that they can recombine and catalyze the formation of a detectable product. Given the catalytic nature of enzyme reactions, this approach can be remarkably sensitive. In another approach fragments of fluorescent proteins become fluorescent when appropriately brought together. The enzyme we propose to exploit is beta-Iactamase and the fluorescent protein we propose to exploit is yellow fluorescent protein (YFP). Thus we have two goals: To define novel protein-protein interactions in the TLR system using co-immunoprecipitation, beta- lactamase and YFP fragment complementation and to make alterations to the complementation systems to improve their utility for our purposes.

描述（由申请人提供）：受体是告知细胞内部外部发生了什么的分子。细胞表面受体的功能有三个关键步骤。第一个是配体结合，第二个是跨膜信号转导，第三个是细胞内信号起始复合物的组装或激活。在本提案中，我们概述了使用一种新的方法来定义TLR受体组装。tlr现在被广泛认为是各种外源性和内源性配体的检测器。它们的激活启动先天免疫炎症反应，并促进适应性免疫反应。从积极的方面来看，它们对检测感染至关重要，而从消极的方面来看，它们与感染性休克有关。