RUNX2 AND PPAR-GAMMA IN CHONDROCYTE FUNCTION

软骨细胞功能中的 RUNX2 和 PPAR-GAMMA

• 批准号: 6870797
• 负责人: MASAHIRO IWAMOTO
• 金额: $ 30.11万
• 依托单位: THOMAS JEFFERSON UNIVERSITY
• 依托单位国家: 美国
• 财政年份: 2005
• 资助国家: 美国
• 起止时间: 2005-02-01 至 2010-01-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6870797
• 关键词: RNA interference; articular cartilage; cartilage development; chick embryo; chondrocytes; developmental genetics; gel mobility shift assay; gene expression; in situ hybridization; laboratory mouse; molecular genetics; peroxisome proliferator activated receptor; phenotype; polymerase chain reaction; protein protein interaction; tissue /cell culture; transcription factor

DESCRIPTION (provided by applicant): It has long been known that articular chondrocytes maintain a stable phenotype through life, whereas growth plate chondrocytes modulate their phenotype, undergo maturation and hypertrophy, and are replaced by bone. However, it is still largely unclear how chondrocytes are able to maintain or modulate their phenotype to exert those fundamentally distinct functions. Runx2 and PPARgamma are two transcription factors that have received a great deal of attention recently. Runx2 is up-regulated in, and required for, chondrocyte hypertrophy and ossification, and PPARgamma is expressed in human articular cartilage and exerts anti-inflammatory roles. We have now found that both factors are expressed in epiphyseal and immature growth plate chondrocytes. Runx2 over-expression accelerates maturation, whereas over-expression of a dominant-negative (DN) Runx2 blocks maturation and leads to chondrocyte de-differentiation. The latter is seen also in chondrocytes isolated from Runx2-/- mouse embryos. In contrast, PPARgamma over-expression blocks maturation, while DN-PPARgamma over-expression favors maturation. Additional in vitro and in vivo data indicate that expression of Runx2 and PPARgamma is tightly coordinated and that the two genes have interdependent roles in chondrocytes. Our central hypotheses are: (a) Continuous and relatively low expression of Runx2 and PPARgamma is needed for a stable chondrocyte phenotype; and (b) Runx2 up-regulation and PPARgamma down-regulation lead to chondrocyte maturation and hypertrophy. We will test these hypotheses by analyzing pre-natal and post-natal patterns of expression and activity of Runx2 and PPARgamma in articular and growth plate cartilages and cells. We will determine consequences of experimental manipulation of Runx2 and PPARgamma expression and activity in vitro and in vivo, including conditional ablation of each gene in chondrocytes at prenatal and/or postnatal points. Molecular mechanisms of regulation of Runx2 and PPARgamma will be tested, including possible direct protein-protein interactions resulting in complexes with altered trans-activating properties. The results of the project will shed novel and important insights into the molecular regulation of chondrocyte phenotype, and will suggest new ways to improve cell and tissue function during natural aging and pathological conditions of the skeleton and joints.

描述（由申请人提供）：长期以来已知关节软骨细胞在整个生命过程中保持稳定的表型，而生长板软骨细胞调节其表型，经历成熟和肥大，并被骨取代。然而，软骨细胞如何维持或调节其表型以发挥这些根本不同的功能，在很大程度上仍不清楚。Runx 2和PPARgamma是近年来受到广泛关注的两个转录因子。Runx 2在软骨细胞肥大和骨化中被上调，并且是软骨细胞肥大和骨化所需的，而PPARgamma在人关节软骨中表达并发挥抗炎作用。我们现在已经发现这两种因子在骨骺和未成熟的生长板软骨细胞中表达。Runx 2过表达加速成熟，而显性阴性（DN）Runx 2的过表达阻断成熟并导致软骨细胞去分化。后者也见于从Runx 2-/-小鼠胚胎分离的软骨细胞中。相反，PPARgamma过表达阻断成熟，而DN-PPARgamma过表达有利于成熟。另外的体外和体内数据表明Runx 2和PPARgamma的表达是紧密协调的，并且这两种基因在软骨细胞中具有相互依赖的作用。我们的主要假设是：（a）稳定的软骨细胞表型需要Runx 2和PPARgamma的持续和相对低的表达;和（B）Runx 2上调和PPARgamma下调导致软骨细胞成熟和肥大。我们将通过分析出生前和出生后Runx 2和PPARgamma在关节和生长板软骨和细胞中的表达和活性模式来测试这些假设。我们将确定Runx 2和PPARgamma的表达和活性在体外和体内的实验操作的后果，包括在产前和/或产后的软骨细胞中的每个基因的条件消融。将测试Runx 2和PPARgamma调节的分子机制，包括可能的直接蛋白质-蛋白质相互作用，导致具有改变的反式激活特性的复合物。该项目的结果将为软骨细胞表型的分子调控提供新的重要见解，并将提出在骨骼和关节的自然衰老和病理条件下改善细胞和组织功能的新方法。