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MOLECULAR AND FUNCTIONAL ANALYSIS OF ICA 512

ICA 512 的分子和功能分析

基本信息

批准号：
2906326
负责人：
MICHELE SOLIMENA
金额：
$ 16.35万
依托单位：
YALE UNIVERSITY
依托单位国家：
美国
项目类别：
财政年份：
1998
资助国家：
美国
起止时间：
1998-05-01 至 2003-04-30
项目状态：
已结题

项目摘要

Secretory granules (SGs) of endocrine cells are responsible for storage and regulated secretion of peptide hormones, including insulin. Pharmacological studies suggest that both tyrosine phosphorylation and dephosphorylation pathways modulate the trafficking of SGs, but the molecules involved in these pathways have not yet been identified. Islet Cell Autoantigen (ICA) 512 is a novel member of the receptor protein tyrosine phosphatase (RPTP) family that we have shown to be an intrinsic membrane protein of SGs. Interestingly, ICA512 contains an atypical protein tyrosine phosphatase (PTP) domain and does not display enzymatic activity. In view of its localization and homology with RPTPs, we hypothesize that ICA512 represents a link between regulated secretion and signal transduction pathways mediated via tyrosine phosphorylation. We plan to test this hypothesis by establishing the protein's function. To this aim we propose first to identify ICA512 interacting proteins using three complementary approaches: 1) the two- hybrid system in yeast, 2) co-purification by solid phase affinity chromatography and immunoprecipitation with anti-ICA512 antibodies, and 3) affinity purification on recombinant ICA512. ICA512 interactors will be cloned and characterized for their affinity to wild-type and ICA512 mutants. Knowledge of ICA512 interactors will provide clues about the cell pathways to which ICA512 insulinoma cell clones overexpressing wild-type or mutant ICA512 alleles in a tetracycline-inducible fashion. The role of ICA512 in vivo will be tested by conditionally over- expressing wild-type or a PTP active mutant of ICA512 in the pancreatic beta-cells of transgenic mice. This will be accomplished using the reverse tetracycline-inducible expression system driven by the rat insulin promoter II. As RPTPs are known to play an important developmental role, we will test the potential impact of ICA512 transgenes on islet organogenesis and beta-cell differentiation by inducing their overexpression at different stages of mouse development. The potential role of ICA512 in beta-cell physiology will be established by monitoring glucose homeostatis in transgenic mice and by studying insulin secretion from purified transgenic islets. These studies could establish a direct relationship between regulated secretion and signal transduction via tyrosine phosphorylation. In addition, since atypical PTP domains similar to that of ICA512 are present in an increasing number of orphan genes, our studies on ICA512 may provide insight into the general significance of such protein motifs.

内分泌细胞的分泌颗粒（SG）负责储存并调节肽激素（包括胰岛素）的分泌。药理学研究表明，酪氨酸磷酸化和去磷酸化途径调节SGs的运输，但参与这些途径的分子尚未被鉴定。胰岛细胞自身抗原（伊卡）512是一个新的受体成员，蛋白酪氨酸磷酸酶（RPTP）家族，我们已经证明是一个 SGs内在膜蛋白。有趣的是，ICA 512包含一个非典型蛋白酪氨酸磷酸酶（PTP）结构域，不显示酶活性鉴于它的局限性和同源性， RPTP，我们假设ICA 512代表了受调控的酪氨酸介导的分泌和信号转导途径磷酸化我们计划通过建立蛋白质的功能。为此，我们首先提出鉴定ICA 512 相互作用的蛋白质使用三种互补的方法：1）两个- 酵母中杂交系统，2）通过固相亲和共纯化层析和用抗ICA 512抗体免疫沉淀，和 3)对重组ICA 512进行亲和纯化。 ICA 512交互器将克隆并表征其对野生型和ICA 512的亲和力变种人 ICA 512相互作用物的知识将提供有关 ICA 512胰岛素瘤细胞克隆过表达的细胞通路野生型或突变型ICA 512等位基因。 ICA 512在体内的作用将通过有条件的过度- 在胰腺中表达ICA 512的野生型或PTP活性突变体，转基因小鼠的β细胞。这将通过使用大鼠驱动的反向四环素诱导表达系统胰岛素促进剂II. 由于RPTPs被认为是重要的发展作用，我们将测试ICA 512的潜在影响转基因对胰岛器官形成和β细胞分化的影响诱导它们在小鼠发育的不同阶段过度表达。将确定ICA 512在β细胞生理学中的潜在作用通过监测转基因小鼠的葡萄糖稳态，从纯化的转基因胰岛分泌胰岛素。这些研究可以在调节分泌和信号之间建立直接关系通过酪氨酸磷酸化进行转导。此外，由于非典型与ICA 512相似的PTP结构域存在于越来越多的孤儿基因的数量，我们对ICA 512的研究可能会提供深入了解这种蛋白质基序的一般意义。