Transcription Factors in Early Kidney Development

早期肾脏发育中的转录因子

• 批准号: 6913582
• 负责人: PIN-XIAN XU
• 金额: $ 27.27万
• 依托单位: MC LAUGHLIN RESEARCH INSTITUTE
• 依托单位国家: 美国
• 财政年份: 2003
• 资助国家: 美国
• 起止时间: 2003-08-15 至 2008-07-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6913582
• 关键词: apoptosis; developmental genetics; genetic models; homeobox genes; laboratory mouse; mammalian embryology; mesenchyme; nephrogenesis; protein protein interaction; transcription factor

DESCRIPTION (provided by applicant): The long-term objective of this proposal is to elucidate the molecular mechanisms controlling the formation of a functional metanephric mesenchyme during early kidney development by examining the role of the transcriptional coactivator Eya1, its interacting homeodomain protein Six1 and their cofactors. The mammalian kidney develops in a region of posterior intermediate mesoderm by inductive interactions between the metanephric mesenchyme and the ureteric bud epithelium. Recent genetic and molecular studies have indicated that the metanephric mesenchyme may provide initial signals to promote ureteric bud formation. However, what genes and the regulatory hierarchy controlling the formation of the metanephric mesenchyme still remain unclear. Recently, the murine Eya1 gene was found to be expressed in the metanephric mesenchyme and mutations in the human EYA1 gene cause Branchio-Oto-Renal (BOR) syndrome, a congenital birth defect characterized by combinations of branchial, otic and renal anomalies. However, despite the identification of the responsible gene, the developmental and molecular basis for renal defects and the identity of the steps at which Eya1 functions in early kidney morphogenesis are unclear. In Eya1 -/- mice, the metanephric mesenchyme never forms and the mesenchymal cells undergo abnormal apoptosis from E10.5, indicating that Eya1 is a key mesenchymal gene required for early kidney morphogenesis. The homeobox gene Six1 was also found to play an essential role during early kidney development and its gene product physically interacts with Eya1. Moreover, the transcription factor N-myc has been recently isolated through yeast two-hybrid screen using Eya1 as "bait" and it physically interacts with both Six1 and Eya1 in vitro. Interestingly, mutations in the N-myc gene also cause kidney defects. Based on these data, we hypothesize that these transcription factors function together in the metanephric mesenchyme to regulate early kidney development. This grant will use a powerful genetic system to test this hypothesis and integrate several mesenchymal genes into a genetic and molecular regulatory pathway governing early kidney development. Specifically, I propose to: (1) test the functional role of Eya1 and Six1 during early kidney development, (2) test the possible interactions between Six1, Eya1 and Pax2 in early kidney development, (3) test whether N-myc interacts with Eya1 or Six1 during early kidney development. These studies will clarify the relationship between Pax2, Eya1, Six1, N-myc and other genes, and have a strong likelihood of providing significant insight at the molecular and genetic level into the early developmental process of kidney morphogenesis.

描述（由申请人提供）：本提案的长期目标是通过检查转录辅激活因子Eya 1、其相互作用的同源结构域蛋白Six 1及其辅因子的作用，阐明在早期肾脏发育过程中控制功能性后肾间充质形成的分子机制。哺乳动物的肾脏是在后中胚层的一个区域内通过后肾间充质和输尿管芽上皮之间的诱导相互作用而发育的。最近的遗传学和分子生物学研究表明，后肾间充质可能提供了促进输尿管芽形成的初始信号。然而，控制后肾间充质形成的基因和调控层次仍然不清楚。最近，发现小鼠Eya 1基因在后肾间充质中表达，并且人EYA 1基因的突变导致鳃-耳-肾（BOR）综合征，这是一种以鳃、耳和肾异常的组合为特征的先天性出生缺陷。然而，尽管鉴定了负责基因，但肾缺陷的发育和分子基础以及Eya 1在早期肾形态发生中起作用的步骤的身份尚不清楚。在Eya 1-/-小鼠中，后肾间充质从未形成，间充质细胞从E10.5开始发生异常凋亡，表明Eya 1是早期肾脏形态发生所需的关键间充质基因。同源盒基因Six 1也被发现在早期肾脏发育过程中发挥重要作用，其基因产物与Eya 1相互作用。此外，转录因子N-myc最近已被分离，通过酵母双杂交筛选使用Eya 1作为“诱饵”，它与Six 1和Eya 1在体外物理相互作用。有趣的是，N-myc基因的突变也会导致肾脏缺陷。基于这些数据，我们假设这些转录因子在后肾间充质中共同作用以调节早期肾脏发育。这项资助将使用一个强大的遗传系统来验证这一假设，并将几个间充质基因整合到一个控制早期肾脏发育的遗传和分子调控途径中。具体而言，我建议：（1）检测Eya 1和Six 1在早期肾脏发育中的功能作用;（2）检测Six 1、Eya 1和Pax 2在早期肾脏发育中可能的相互作用;（3）检测N-myc在早期肾脏发育中是否与Eya 1或Six 1相互作用。这些研究将阐明Pax 2、Eya 1、Six 1、N-myc和其他基因之间的关系，并极有可能在分子和遗传水平上为肾脏形态发生的早期发育过程提供重要见解。