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Biochemistry and Regulation of Cadherin Activity

钙粘蛋白活性的生物化学和调节

基本信息

批准号：
7937180
负责人：
BARRY M. GUMBINER
金额：
$ 23.41万
依托单位：
UNIVERSITY OF VIRGINIA
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-09-30 至 2011-08-31
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7937180
关键词：
Activins Adherens Junction Adhesions Adhesives Adult Area Biochemistry C cadherin Cadherins Cell Adhesion Cell Adhesion Molecules Cell Culture Techniques Cell Line Cell Separation Cell Signaling Process Cell membrane Cell physiology Cell surface Cells Colo205 Complex Congenital Abnormality Defect Development Developmental Process Diagnostic Dimerization Disease Down-Regulation E-Cadherin Elements Embryo Epithelial Epithelial Cells Epitope Mapping Evaluation Event FLRT3 gene Functional disorder Goals Government Growth Growth Factor Human Imaging Techniques Inflammation Investigation Lead Learning Malignant Neoplasms Mediating Membrane Protein Traffic Mesenchymal Methods Molecular Molecular Conformation Molecular Structure Monoclonal Antibodies Morphogenesis Mus Neoplasm Metastasis Organ Pathway interactions Persons Physiological Process Proteins Regenerative Medicine Regulation Resolution Role Signal Pathway Signal Transduction Signaling Protein Structure Surface Testing Therapeutic Tissues Total Internal Reflection Fluorescent Vascular remodeling Xenograft Model Xenopus cancer therapy epithelial to mesenchymal transition fluorescence imaging neoplastic cell novel protein degradation protocadherin paraxial public health relevance response three dimensional structure tool tumor tumor growth tumor progression

项目摘要

DESCRIPTION (provided by applicant): The regulation of cadherin-mediated adhesion underlies many morphogenetic processes. Understanding cadherin regulation in embryos has important implications for many developmental diseases, including birth defects, and it will be important for advances in regenerative medicine. The regulation of cadherins also occurs in adult tissues and is involved in many pathophysiological processes including alterations in epithelial transport, inflammation, and vascular remodeling. In particular, downregulation of E-cadherin function or remodeling of adherens junction during the epithelial to mesenchymal transition (EMT) contributes to tumor metastasis, and the ability to slow this process could provide approaches for cancer therapy. Much has been learned in recent years about the cellular processes (eg. membrane trafficking, cytoskeletal dynamics, protein turnover) and signaling pathways that impact on cadherin-mediated adhesion and adherens junction remodeling. In a different area of investigation, a great deal has been learned about the molecular structure of the cadherin homophilic bond. The goals of this proposed project are to bridge the gap between these two areas and elucidate how regulation of adhesion by these various cellular processes and growth factor signaling pathways controls the structure and activity state of the cadherin adhesive bond. Novel tools that will be key to this project are cadherin activating monoclonal antibodies (mAbs) and conformation selective mAbs for different cadherin structural and functional states. The specific aims are: A. Analyze the relationship between the activity state of the E-cadherin at the cell surface and E-cadherin internalization, adherens junction remodeling or disassembly during the epithelial-mesenchymal-transition (EMT), and the growth and spread of human epithelial tumor cells; B. Determine how Paraxial Protocadherin (PAPC) regulates C-cadherin- mediated cell adhesion and cell sorting in the early Xenopus embryo; C. Explore cadherin conformations and three-dimensional structures associated with functional states, including dimerization and activity state, as defined by conformation selective and activating mAbs; D. Analyze cellular and molecular mechanisms controlling cadherin activity states at the cell surface in response to activating monoclonal antibodies and growth factor signaling; using high resolution fluorescence imaging, a structure-function analysis of the cadherin-catenin complex, and the identification of cadherin interacting proteins specifically associated with activity state. An important hypothesis to be tested is that inside-out regulation of the activity state of cadherins at the cell surface participates in many of the cellular events associated with adherens junction remodeling and cadherin downregulation. PUBLIC HEALTH RELEVANCE: Cadherins are cell adhesion proteins, which function to hold cells together in tissues and organs, and cadherin dysfunction can lead to development defects in embryos as well as tumor growth and metastasis in adults. We are trying to understand the way that cadherin protein molecules are switched on and off at the surface of the cell to control their adhesive functions in tissues. Moreover, we are developing methods to detect and control the functional state of cadherins on the cell, which have the potential to be used as diagnostic or therapeutic approaches for the treatment of many diseases, including cancer.

描述（由申请人提供）：钙粘蛋白介导的粘附调节是许多形态发生过程的基础。了解钙粘蛋白在胚胎中的调节对许多发育性疾病（包括出生缺陷）具有重要意义，并且对再生医学的进展也很重要。钙粘蛋白的调节也发生在成人组织中，并参与许多病理生理过程，包括上皮转运、炎症和血管重塑的改变。特别是，在上皮间质转化（EMT）过程中，E-钙粘蛋白功能的下调或粘附连接的重塑有助于肿瘤转移，减缓这一过程的能力可以为癌症治疗提供方法。近年来，人们对细胞过程有了很大的了解（例如，膜运输、细胞骨架动力学、蛋白质周转）和影响钙粘蛋白介导的粘附和粘附连接重塑的信号传导途径。在另一个研究领域，人们对钙粘蛋白同亲键的分子结构有了大量的了解。本项目的目标是弥合这两个领域之间的差距，并阐明这些不同的细胞过程和生长因子信号通路的粘附调节如何控制钙粘蛋白粘附键的结构和活性状态。新的工具，将是关键，这个项目是钙粘蛋白激活单克隆抗体（mAb）和构象选择性的mAb不同的钙粘蛋白的结构和功能状态。具体目标是：A.分析上皮-间质转化（EMT）过程中细胞表面E-cadherin的活性状态与E-cadherin内化、粘附连接重构或解体以及人上皮肿瘤细胞生长扩散的关系; B.确定近轴原钙粘蛋白（PAPC）如何调节早期爪蟾胚胎中C-钙粘蛋白介导的细胞粘附和细胞分选;探索钙粘蛋白构象和三维结构与功能状态，包括二聚化和活性状态，如构象选择性和激活单克隆抗体所定义的; D.分析细胞和分子机制控制钙粘蛋白活性状态在细胞表面响应激活单克隆抗体和生长因子信号传导;使用高分辨率荧光成像，钙粘蛋白-连环蛋白复合物的结构-功能分析，并识别钙粘蛋白相互作用蛋白特异性相关的活动状态。有待检验的一个重要假设是，细胞表面钙粘蛋白活性状态的由内而外调节参与了许多与粘附连接重塑和钙粘蛋白下调相关的细胞事件。公共卫生关系：钙粘蛋白是一种细胞粘附蛋白，其功能是将组织和器官中的细胞保持在一起，钙粘蛋白功能障碍可导致胚胎发育缺陷以及成人肿瘤生长和转移。我们正试图了解钙粘蛋白分子在细胞表面打开和关闭的方式，以控制它们在组织中的粘附功能。此外，我们正在开发检测和控制细胞上钙粘蛋白功能状态的方法，这些方法有可能用作治疗许多疾病（包括癌症）的诊断或治疗方法。