The Role of Proteinases and Vascular Lesion Formation

蛋白酶和血管病变形成的作用

• 批准号: 6725352
• 负责人: MICHAEL A. REIDY
• 金额: $ 37.9万
• 依托单位: UNIVERSITY OF WASHINGTON
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-04-01 至 2007-03-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6725352
• 关键词: SDS polyacrylamide gel electrophoresis; biological signal transduction; blood vessel disorder; cadherins; cell migration; cell proliferation; collagenase; confocal scanning microscopy; enzyme activity; extracellular matrix; growth factor; immunoelectron microscopy; laboratory mouse; mitogen activated protein kinase; muscle cells; phenotype; phosphatidylinositol 3 kinase; plasmin; plasminogen; protein localization; protein structure function; smooth muscle; tissue inhibitor of metalloproteinases; transfection /expression vector

DESCRIPTION (provided by applicant): This proposal will examine the importance of matrix metalloproteinase-9 (MMP-9) as a regulator of intimal lesion formation. The rationale for this study is that migration of SMC into the new neointima is a critical step in arterial lesion formation. This hypothesis is now supported by our data showing a significant reduction in the size of the neointima in MMP-9 -/- as compared to wild type arteries (FVB background). The experiments of the first aim will validate if this phenotypic change is influenced by the mouse background strain. SMC replication and migration will be analyzed in MMP-9 -/- arteries on a C57BL/6 background. Studies will also determine if direct inhibition of MMP-9 in wild type cells (FVB) will retard migration and replication. Aim 2 will ask if activation of MMP-9 requires plasmin activity. SMC from plaminogen -/- mice will be stimulated to express MMPs and the ratio of inactive and active MMP-9. In a similar manner, the migration of SMC from plaminogen -/- and of wild type arteries will be measured in vitro. A direct role for plasmin activity regulating SMC migration will be tested by transfecting MMP-9 -/- SMC with an adenoviral construct expressing uPA. The next aim will explore how MMP-9 regulates SMC replication. Experiments will determine if MMP-9 regulates the release of arterial growth factors from the extracellular matrix. The activation of ERK and PI3K signal transduction pathways will be measured in injured wild type and MMP-9 -/- arteries. Studies will then document the presence of mitogens in injured wild type and MMP-9 -/- arteries by immuno-electron microscopy. Finally since our preliminary data suggest that MMP-9 may regulate SMC replication by clipping the ectodomain of cadherin, we will evaluate the localization of beta-catenin in SMC isolated from wild type and MMP-9 -/- arteries. We will also measure activation of a beta-catenin/ LEF1 reporter construct in wild type and MMP-9 -/- cells since this is known to upregulate cyclin D1 expression. The final study will be to provide evidence of activation of the beta-catenin/LEF1 site in injured wild type and MMP-9 -/- arteries.

描述（由申请人提供）： 本研究将探讨基质金属蛋白酶-9（MMP-9）作为内膜病变形成调节因子的重要性。本研究的基本原理是SMC迁移到新的新生内膜中是动脉病变形成的关键步骤。该假设现在得到了我们的数据的支持，该数据显示与野生型动脉（FVB背景）相比，MMP-9 -/-中的新生内膜尺寸显著减小。第一个目标的实验将验证这种表型变化是否受到小鼠背景品系的影响。将在C57 BL/6背景下分析MMP-9 -/-动脉中的SMC复制和迁移。研究还将确定在野生型细胞（FVB）中直接抑制MMP-9是否会延迟迁移和复制。目的2将询问MMP-9的活化是否需要纤溶酶活性。将刺激来自纤溶酶原-/-小鼠的SMC以表达MMP以及无活性和活性MMP-9的比率。以类似的方式，将在体外测量SMC从纤溶酶原-/-和野生型动脉的迁移。纤溶酶活性调节SMC迁移的直接作用将通过用表达uPA的腺病毒构建体转染MMP-9 -/- SMC来测试。下一个目标将探索MMP-9如何调节SMC复制。实验将确定MMP-9是否调节动脉生长因子从细胞外基质的释放。将在损伤的野生型和MMP-9 -/-动脉中测量ERK和PI 3 K信号转导途径的激活。然后，研究将通过免疫电子显微镜记录损伤的野生型和MMP-9 -/-动脉中有丝分裂原的存在。最后，由于我们的初步数据表明，MMP-9可能通过剪切钙粘蛋白的胞外域来调节SMC复制，我们将评估β-连环蛋白在从野生型和MMP-9 -/-动脉分离的SMC中的定位。我们还将测量野生型和MMP-9 -/-细胞中β-连环蛋白/LEF 1报告基因构建体的激活，因为已知这上调细胞周期蛋白D1表达。最终的研究将提供在损伤的野生型和MMP-9 -/-动脉中β-连环蛋白/LEF 1位点活化的证据。