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ROLE OF FPS/FES PROTO-ONCOGENE IN MYELOID CELL FUNCTION

FPS/FES 原癌基因在骨髓细胞功能中的作用

基本信息

批准号：
6512724
负责人：
RICARDO A FELDMAN
金额：
$ 26.69万
依托单位：
UNIVERSITY OF MARYLAND BALTIMORE
依托单位国家：
美国
项目类别：
财政年份：
1991
资助国家：
美国
起止时间：
1991-07-01 至 2005-05-31
项目状态：
已结题

项目摘要

The long-term objective of this study is to understand the biological role and mechanism of action of the c-fps/Fes proto-oncogene. Fes encodes a cytoplasmic tyrosine kinase that is specifically expressed in myeloid cells. We have obtained evidence that Fes is involved in signaling through a specialized class of surface receptors during cell- cell and cell-matrix interactions, and suggests a possible role of Fes in mediating the release of inflammatory cytokines during macrophage activation. We found that VLA-4 integrin engagement in macrophages, a process that induces the release of inflammatory mediators, results in the activation of Fes kinase. We have also identified a number of macrophage specific substrates of Fes, which are involved in cell adhesion and regulation of inflammatory cytokines. One of the substrates phosphorylated by Fes is the crk-associated substrates (Cas) and another is a new 130 kDa protein (P130). Cas is an adapter protein involved in integrin signalling. P130 is a protein expressed only in hematopoietic cells and has been implicated in release of inflammatory cytokines. We hypothesize that Fes is involved in a novel integrin- dependent pathway that regulates the release of inflammatory mediators. In this proposal we will study the mechanism by which integrin engagement results in activation of Fes kinase, and how phosphorylation of its specific substrates regulates the inflammatory response of macrophages. The macrophage adhesion receptor VLA-4 will be engaged by cross-linking with specific antibodies and by adhesions to fibronectin, and the functional interactions between Fes and the integrin cascade will be examined. Using a combination of genetic and biochemical approaches we will elucidate the mechanisms involved in Fes kinase activation, characterize the Fes substrates, identify its downstream targets, and analyze the role of Fes in the adhesion-dependent macrophage inflammatory response. Finally, we will identify the transcriptional regulators activated by Fes and map the Fes-responsive elements in the promoters of genes under Fes control. Macrophages are a central player in the immune response to microorganisms, in tumoricidal activity, and in pathological conditions such as atherosclerosis. The proposed investigation will bring to light a previously unknown regulatory cascade involved in inflammatory response of macrophage. This will have an impact on the rational design of therapies aimed at preventing the inappropriate activation of macrophages, a biomedical problem of paramount importance.

这项研究的长期目标是了解生物学 c-fps/Fes原癌基因的作用和作用机制。非斯编码一种细胞质酪氨酸激酶，该激酶在骨髓细胞。我们已经获得了 Fes 参与的证据在细胞-过程中通过一类特殊的表面受体发出信号细胞和细胞-基质相互作用，并表明 Fes 的可能作用介导巨噬细胞释放炎症细胞因子激活。我们发现 VLA-4 整合素参与巨噬细胞，诱导炎症介质释放的过程，导致 Fes 激酶的激活。我们还确定了一些 Fes 的巨噬细胞特异性底物，参与细胞炎症细胞因子的粘附和调节。中的一个 Fes 磷酸化的底物是 crk 相关底物 (Cas) 另一个是新的 130 kDa 蛋白质 (P130)。 Cas是一种衔接蛋白参与整合素信号传导。 P130 是一种仅在造血细胞并参与炎症的释放细胞因子。我们假设 Fes 参与一种新的整合素调节炎症介质释放的依赖性途径。在本提案中，我们将研究整合素的机制参与导致 Fes 激酶激活，以及磷酸化如何进行其特定底物调节炎症反应巨噬细胞。巨噬细胞粘附受体 VLA-4 将参与与特定抗体交联并通过与纤连蛋白粘附，以及 Fes 和整合素级联之间的功能相互作用将接受检查。结合遗传和生化我们将阐明 Fes 激酶涉及的机制活化，表征 Fes 底物，识别其下游目标，并分析 Fes 在粘附依赖性中的作用巨噬细胞炎症反应。最后，我们将确定 Fes 激活的转录调节因子并绘制 Fes 响应图 Fes控制下基因启动子中的元件。巨噬细胞是在对微生物的免疫反应中起着核心作用杀肿瘤活性，以及在病理条件下，例如动脉粥样硬化。拟议的调查将揭露一个以前未知的参与炎症反应的调节级联反应巨噬细胞。这将会影响到合理设计旨在防止不当激活的疗法巨噬细胞，一个至关重要的生物医学问题。