Mechanisms of Cell-Matrix Interaction and Signaling in Lens Development

晶状体发育中细胞-基质相互作用和信号传导的机制

• 批准号: 7084335
• 负责人: HILARY E BEGGS
• 金额: $ 34.39万
• 依托单位: UNIVERSITY OF CALIFORNIA, SAN FRANCISCO
• 依托单位国家: 美国
• 财政年份: 2006
• 资助国家: 美国
• 起止时间: 2006-04-01 至 2011-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/7084335
• 关键词: lens

DESCRIPTION: Loss of the pivotal connection between cell matrix adhesion sites and the cytoskeleton may lie at the heart of a number of diseases. This project is focused on elucidating the molecular mechanisms regulating this functional attachment in the developing mouse lens. Our central hypothesis is that focal adhesion kinase (FAK) and related signaling molecules translate cell-matrix attachment into cytoskeletal rearrangements and a cascade of responses, including 1) cellular proliferation, differentiation and migration as well as 2) organization of the extracellular matrix into basement membranes. Study of this dynamic, bi-directional interaction requires examination of a native, three-dimensional tissue structure. Our general strategy is to study these pathways in the mouse ocular lens, since it is surrounded by one of the thickest basement membranes in the body, undergoes a defined development, can be cultured intact, and is transparent, rendering it uniquely accessible to imaging analysis. We will use a conditional knockout approach to delete FAK, its only family member Pyk2, as well as integrin-linked kinase (ILK) from the developing mouse lens. Deletion of Pyk2 will address issues of functional redundancy, and deletion of ILK will further test our hypothesis by disrupting cell-matrix-cytoskeletal attachment through an alternative route, independent of FAK. We will use a combination of molecular, cellular, biochemical and structural approaches to address the following questions: Aim 1) Are FAK, Pyk2 and ILK signaling required for lens development? Does perturbation of this pathway result in lens pathology? Aim 2) Does disruption of FAK-related signaling result in specific cellular defects in lens cell migration, proliferation and/or differentiation? What signaling pathways are involved? Aim 3) How does disruption of FAK-related signaling alter how the lens capsule basement membrane is organized, synthesized and re-modeled? These proposed studies will provide mechanistic insight into the crosstalk required between cells and the extracellular matrix, and the signaling pathways involved. Importantly, these results will also provide unique insight into the mechanisms of eye development and potentially contribute to a better understanding of blinding disorders such as microphthalmia and congenital cataracts that we predict may result from faulty cell matrix interactions during lens cell development.

描述：细胞基质黏附部位和细胞骨架之间关键连接的缺失可能是许多疾病的核心。本项目致力于阐明在发育中的小鼠晶状体中调节这种功能附着的分子机制。我们的中心假设是粘着斑激酶(FAK)和相关的信号分子将细胞-基质附着转化为细胞骨架重排和一系列反应，包括1)细胞增殖、分化和迁移，以及2)细胞外基质组织成基底膜。对这种动态的、双向的相互作用的研究需要对天然的三维组织结构进行检查。我们的总体策略是研究小鼠晶状体中的这些途径，因为它被体内最厚的基底膜之一所包围，经历了明确的发育，可以完整培养，并且是透明的，使其能够唯一地进行成像分析。我们将使用有条件的基因敲除方法从发育中的小鼠晶状体中删除FAK，它唯一的家族成员Pyk2，以及整合素连接的激酶(ILK)。删除Pyk2将解决功能冗余的问题，而删除ILK将通过独立于FAK的另一条途径扰乱细胞-基质-细胞骨架连接，从而进一步检验我们的假设。我们将使用分子、细胞、生化和结构方法的组合来解决以下问题：目的1)晶状体发育是否需要FAK、PYK2和ILK信号？这一通路的紊乱是否会导致晶状体病理？目的2)FAK相关信号的干扰是否导致晶状体细胞迁移、增殖和/或分化过程中特定的细胞缺陷？涉及哪些信号通路？目的3)FAK相关信号的中断如何改变晶状体囊膜基底膜的组织、合成和重构？这些拟议的研究将提供对细胞和细胞外基质之间所需的串扰以及所涉及的信号通路的机械性见解。重要的是，这些结果还将为眼睛发育的机制提供独特的见解，并可能有助于更好地理解致盲疾病，如小眼炎和先天性白内障，我们预测这些疾病可能是由于晶状体细胞发育过程中细胞基质相互作用错误造成的。