Signaling Pathways in Pathogenesis of Renal Fibrosis

肾纤维化发病机制中的信号通路

• 批准号: 6617844
• 负责人: JOSEPH PETER GRANDE
• 金额: $ 25.4万
• 依托单位: MAYO CLINIC ROCHESTER
• 依托单位国家: 美国
• 财政年份: 2001
• 资助国家: 美国
• 起止时间: 2001-09-01 至 2005-05-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6617844
• 关键词: biological signal transduction; collagen; fibrosis; gel mobility shift assay; gene expression; gene targeting; genetic promoter element; genetic transcription; genetically modified animals; laboratory rat; mitogen activated protein kinase; nucleic acid sequence; pathologic process; transforming growth factors

DESCRIPTION (Applicant's abstract): Diabetic arteriopathy, diabetic nephropathy, and many forms of progressive renal disease are all characterized by excessive deposition of collagen IV. The lack of effective therapies for these forms of chronic tissue injury are in large part due to a lack of understanding of basic mechanisms of fibrogenesis. Although TGF-13 1 has emerged as the dominant determinant of collagen IV expression and is considered an essential fibrogenic cytokine, the intracellular signaling pathways elicited by TGF-B 1 and the mechanism by which TGF-J3 1 stimulates transcription of the collagen IV genes in pathobiologic states is not known. The central hypothesis to be tested in this application is that TGF-B 1 increases transcription of the collagen IV genes by triggering several functionally distinct intracellular signaling pathways, involving the Smad proteins and one or more of the mitogen activated protein kinase cascades. In Specific Aim 1, functional characterization of the collagen IV promoter and flanking regions will be completed. Deletion constructs of chimeric collagen IV promoter-CAT vectors will be used to define sequences which function as orientation-specific activator regions that direct transcription of the a1(IV) and a2(IV) collagen genes. Nuclear proteins that bind these critical regulatory regions will be defined by gel mobility shift assays. In Specific Aim 2, the role of TGF-B 1 elicited signaling pathways on collagen IV transcription, steady state mRNA expression, and protein production will be ascertained. Rat mesangial cells and aortic smooth muscle cells will be transfected with constitutively active or dominant negative Smad constructs and with constructs to constitutively activate the ERK, iNK, and p38 signaling pathways; the role of these interventions on basal and TOP-B 1 stimulated collagen IV expression will be ascertained. Potential sites of interaction between the Smad and MAPK signaling pathways will be defined. Based on these studies, transfection analysis and gel mobility shift assays will be employed to define sequence elements within the collagen N promoter or flanking region that confer a transcriptional response to TGF-beta 1(TGF-B1, Specific Aim 3). Finally, mesangial cells and vascular smooth muscle cells isolated from TGF-B 1 knockout animals will be used to determine whether activation of the Smad and/or MAP kinase signaling cascades can activate transcription of the collagen IV genes in a TGF-B 1-independent manner. Delineation of the collagen IV signaling pathway will reveal basic cellular mechanisms of enhanced fibrogenesis underlying progressive tissue injury, and may provide the rational basis for the design of new pharmaco-therapeutic interventions targeted to specific identified signaling steps. If successful, these interventions may retard progression of tissue injury to end-stage disease.

描述（申请人摘要）：糖尿病动脉病，糖尿病 肾病和许多形式的进行性肾病都以 IV型胶原过度沉积缺乏有效的治疗方法， 这些形式的慢性组织损伤在很大程度上是由于缺乏 了解纤维化的基本机制。虽然TGF-13 1具有 作为IV型胶原蛋白表达的主要决定因素， 一种重要的纤维化细胞因子，细胞内信号通路引起 通过TGF-β 1和TGF-β 3 1刺激转录的机制， 病理生物学状态下的IV型胶原基因是未知的。核心假设 在本申请中要测试的是，TGF-β 1增加了TGF-B1受体的转录。 IV型胶原基因通过触发几种功能不同的细胞内 信号通路，涉及Smad蛋白和一种或多种有丝分裂原 激活的蛋白激酶级联。在具体目标1中，功能性 胶原蛋白IV启动子和侧翼区的表征将是 完成嵌合胶原IV启动子-CAT载体的缺失构建体 将用于定义作为定向特异性功能的序列 指导a1（IV）和a2（IV）胶原转录的激活区 基因.结合这些关键调控区域的核蛋白将被 通过凝胶迁移率变动测定来确定。在特异性目标2中，TGF-β 1的作用 诱导IV型胶原转录、稳态mRNA 表达和蛋白质生产将被确定。大鼠系膜细胞和 主动脉平滑肌细胞将用组成型活性或 显性负性Smad结构和结构组成性 激活ERK、iNK和p38信号通路;这些信号通路的作用 对基础和TOP-B1刺激的IV型胶原蛋白表达的干预将是 确定。Smad和MAPK信号转导之间相互作用的潜在位点 路径将被定义。基于这些研究，转染分析和凝胶电泳显示， 将采用迁移率变动分析来确定 赋予转录应答的胶原蛋白N启动子或侧翼区 转化为TGF-β 1（TGF-β 1，特异性目标3）。最后，系膜细胞和血管 从TGF-B1敲除动物分离的平滑肌细胞将用于 确定Smad和/或MAP激酶信号级联的激活是否 可以激活IV型胶原基因的转录， 方式IV型胶原蛋白信号通路的描述将揭示基本的 进行性组织纤维化增强的细胞机制 损伤，并可提供合理的依据，设计新的 针对特定已识别信号的药物治疗干预 步如果成功，这些干预措施可能会延缓组织的进展， 对终末期疾病的伤害。