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PYK2 function during fertilization

PYK2 在受精过程中的功能

基本信息

批准号：
8676492
负责人：
William H. Kinsey
金额：
$ 25.19万
依托单位：
UNIVERSITY OF KANSAS MEDICAL CENTER
依托单位国家：
美国
项目类别：
财政年份：
2010
资助国家：
美国
起止时间：
2010-08-13 至 2016-05-02
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/8676492
关键词：
Actins Adhesions Assisted Reproductive Technology Binding Biochemical Pathway Calcium Calcium Channel Calcium Signaling Cell Cycle Cell Nucleus Cell membrane Cells Chromatin Clinical Competence Cone Cytoskeletal Modeling Cytoskeleton Development Dominant-Negative Mutation Event Fertility Fertilization Fertilization failure Fertilization in Vitro Genome Germ Cells Goals Guanosine Triphosphate Human Image Immunoprecipitation In Vitro Individual Insemination Integrins Intracytoplasmic Sperm Injections Knowledge Laboratories Laboratory Finding Left Mediating Membrane Proteins Metabolism Methods Modeling Modification Mus NAADP Oocytes Ooplasm Outcome Study PTK2B gene Pathway Analysis Pathway interactions Performance Phosphoproteins Phosphorylation Phosphotransferases Procedures Process Proteins Proteomics Reagent Recombinant Proteins Reproduction Role Running Series Signal Pathway Signal Transduction Site Staging Surface System Testing Time Translating Western Blotting Work Zebrafish base cell type egg functional restoration human PTK2B protein improved inhibitor/antagonist knowledge base novel nuclear transfer oocyte maturation particle research study response sperm cell success technique development zygote

项目摘要

DESCRIPTION (provided by applicant): Fertilization involves a series of signal transduction events that serve to activate the block to polyspermy, induce resumption of the cell cycle, incorporate the paternal genome, and activate egg metabolism. Key steps in this process include the actin cytoskeleton modifications that physically incorporate the sperm nucleus into the egg and subsequently reorganize the egg cortex. Recent findings by this laboratory revealed that the cytoskeleton-associated PYK2 kinase is rapidly activated during fertilization and functional studies indicate a role for PYK2 in sperm incorporation and egg activation. The objective of the proposed study is to test the hypothesis that PYK2 kinase participates in the signaling events triggered by sperm-egg adhesion or fusion that are critical for sperm incorporation and modification of the egg cytoskeleton. The project will make use of the economical zebrafish fertilization system which provides unique advantages for identification of signaling events at the point of sperm-egg contact as well as for proteomic analysis of substrates of the PYK2 kinase. The first specific aim will identify the specific function(s) of PYK2 kinase in egg activation. The second aim will identify the signals which activate PYK2 at fertilization. The third aim will identify the protein targets phosphorylated by PYK2 in order to work out the downstream pathways that it controls. The results of this study will provide important details regarding control of the egg cytoskeleton at fertilization and possibly help resolve the question of signaling pathways activated by sperm-egg recognition and fusion. These findings will have significant application to the development of techniques for assisted reproductive technologies to enhance human fertility. Lay Summary: This study will work out the mechanism by which the sperm activates the egg during fertilization. The specific role of PYK2 kinase in bringing the sperm nucleus into the egg will be analyzed with the ultimate aim of enhancing the success of human in vitro fertilization.

描述（由申请人提供）：受精涉及一系列信号转导事件，这些事件有助于激活多精子的阻断，诱导细胞周期的恢复，合并父系基因组，并激活卵子代谢。这个过程的关键步骤包括肌动蛋白细胞骨架修饰，将精子细胞核物理地整合到卵子中，随后重组卵子皮层。该实验室最近的研究发现，细胞骨架相关的PYK2激酶在受精过程中被迅速激活，功能研究表明PYK2在精子结合和卵子激活中起作用。本研究的目的是验证PYK2激酶参与精卵粘附或融合触发的信号事件的假设，这些信号事件对精子的结合和卵细胞骨架的修饰至关重要。该项目将利用经济的斑马鱼受精系统，该系统为识别精子-卵子接触点的信号事件以及PYK2激酶底物的蛋白质组学分析提供了独特的优势。第一个具体目标是确定PYK2激酶在卵子活化中的具体功能。第二个目标是识别受精时激活PYK2的信号。第三个目标将确定被PYK2磷酸化的蛋白靶点，以便找出它控制的下游途径。本研究结果将提供受精过程中卵细胞骨架控制的重要细节，并可能有助于解决由精卵识别和融合激活的信号通路问题。这些发现将对辅助生殖技术的发展有重要的应用，以提高人类的生育能力。这项研究将找出精子在受精过程中激活卵子的机制。我们将分析PYK2激酶在将精子细胞核带入卵子中的具体作用，最终目的是提高人类体外受精的成功率。