Mechanisms of FGF Receptor Regulation and Signaling

FGF 受体调节和信号转导机制

• 批准号: 6920382
• 负责人: MOOSA MOHAMMADI
• 金额: $ 58.88万
• 依托单位: NEW YORK UNIVERSITY SCHOOL OF MEDICINE
• 依托单位国家: 美国
• 财政年份: 2000
• 资助国家: 美国
• 起止时间: 2000-07-01 至 2010-06-30
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/6920382
• 关键词: X ray crystallography; binding sites; biological signal transduction; carcinogenesis; fibroblast growth factor; growth factor receptors; intermolecular interaction; phosphorylation; posttranslational modifications; protein structure function; protein tyrosine kinase; receptor binding; receptor expression; skeletal disorder; surface plasmon resonance; tissue /cell culture

DESCRIPTION (provided by applicant): Fibroblast growth factors (FGFs) execute their ubiquitous roles in the developing embryo, as well as in the adult, by binding and activating FGF receptor tyrosine kinases (FGFRs). FGFRs are single pass transmembrane receptors composed of an extracellular ligand binding region and a cytoplasmic region harboring the conserved tyrosine kinase domain. FGF-FGFR binding specificity is essential for the regulation of FGF signaling and is determined by primary sequence differences among FGFs and FGFRs. Similarly, specific recognition and tyrosine phosphorylation of intracellular targets by the activated FGFR is a fundamental step in FGF signaling and determines which specific downstream pathways are activated and, hence, what cellular response ensues. Aberrant FGF signaling is responsible for a wide spectrum of human pathological conditions including skeletal syndromes, olfactory syndromes, phosphate wasting disorders and cancer. The diversity of these diseases reflects the versatile and vital functions that FGFs play in human biology and provides a strong impetus for a thorough understanding of FGF signaling at the molecular level. The specific aims of this proposal are: I. Establish the pattern of, and determine the structural basis for, FGF-FGFR binding specificity/promiscuity. II. Elucidate the structural basis for autoinhibition in the extracellular region of FGFR. III. Elucidate the structural basis by which FGFR interacts with intracellular signaling molecules. IV. Elucidate the structural basis by which FGFR kinase domain mutations result in constitutive activation of FGFRs in human skeletal syndromes and cancer. The primary means to accomplish these aims will be X-ray crystallography, coupled with surface plasmon resonance and steady-state kinetic analysis. The fundamental structural and biochemical information obtained from these studies will enhance our knowledge of FGF signaling and will allow us to understand the effects of pathogenic FGF and FGFR mutations. In broader terms, these studies will facilitate the rational design of novel antagonists of FGF signaling for use in treatment of a variety of pathological conditions and will also enhance our understanding of signaling of the entire receptor tyrosine kinase superfamily.

描述（由申请人提供）：成纤维细胞生长因子（FGF）通过结合和激活FGF受体酪氨酸激酶（FGFR），在发育中的胚胎以及成人中发挥其普遍存在的作用。FGFR是由细胞外配体结合区和含有保守酪氨酸激酶结构域的细胞质区组成的单程跨膜受体。FGF-FGFR结合特异性对于FGF信号传导的调节是必不可少的，并且由FGF和FGFR之间的一级序列差异决定。类似地，通过活化的FGFR对细胞内靶标的特异性识别和酪氨酸磷酸化是FGF信号传导中的基本步骤，并决定了哪些特异性下游途径被活化，从而决定了产生何种细胞应答。异常的FGF信号传导导致广泛的人类病理状况，包括骨骼综合征、嗅觉综合征、磷酸盐消耗障碍和癌症。这些疾病的多样性反映了FGF在人类生物学中发挥的多功能和重要功能，并为在分子水平上彻底了解FGF信号传导提供了强大的动力。这项建议的具体目标是： I.建立FGF-FGFR结合特异性/混杂性的模式并确定其结构基础。 二.阐明FGFR细胞外区自身抑制的结构基础。 三.阐明FGFR与细胞内信号分子相互作用的结构基础。四.阐明FGFR激酶结构域突变导致人类骨骼综合征和癌症中FGFR组成性激活的结构基础。 实现这些目标的主要手段是X射线晶体学，再加上表面等离子体共振和稳态动力学分析。从这些研究中获得的基本结构和生化信息将增强我们对FGF信号传导的了解，并使我们能够了解致病性FGF和FGFR突变的影响。从更广泛的意义上讲，这些研究将促进FGF信号传导的新型拮抗剂的合理设计，用于治疗各种病理状况，也将增强我们对整个受体酪氨酸激酶超家族信号传导的理解。