Role of nuclear receptors in origin and differentiation of spermatozoa

核受体在精子起源和分化中的作用

基本信息

批准号：
7936052
负责人：
Adam Michael Reitzel
金额：
$ 6.28万
依托单位：
WOODS HOLE OCEANOGRAPHIC INSTITUTION
依托单位国家：
美国
项目类别：
财政年份：
2009
资助国家：
美国
起止时间：
2009-09-09 至 2012-09-08
项目状态：
已结题

来源：
https://reporter.nih.gov/project-details/7936052
关键词：
Abnormal Cell Adult Anemone Animal Model Animals Attention Binding Binding Sites Bioinformatics Biological Assay Biological Models Cardiovascular system Cell Line Cells Cnidaria Comparative Study Complex Computer Simulation Coupled DNA DNA-Binding Proteins Development Developmental Process Diagnosis Diploidy Electrophoretic Mobility Shift Assay Embryo Embryonal Carcinoma Cell Embryonic Development Evolution Family Fertility Future Gene Expression Gene Silencing Gene Targeting Genes Genetic Genome Germ Cells Haploidy Histocompatibility Testing Human Immunohistochemistry In Situ Hybridization In Vitro Invertebrates Investigation Lead Life Cycle Stages Malignant Neoplasms Mammals Mission Modeling Molecular National Institute of Child Health and Human Development Nuclear Orphan Receptor Nuclear Receptor Gene Nuclear Receptors Oligonucleotide Microarrays Oocytes Orphan Pathway interactions Pattern Phase Phenotype Phylogenetic Analysis Plant Roots Play Process Promoter Regions Proteins Public Health RNA Interference Regulation Regulator Genes Reproduction Reproductive Health Reproductive Periods Research Research Proposals Research Support Response Elements Role Science Sea Anemones Signal Transduction Specific qualifier value Specificity Spermatogenesis Spermatogenic Cell Spermatogonia Staging Stem cells Techniques Technology Testing Testis Tissues Undifferentiated Vertebrates comparative dimer germ cell nuclear factor human male insight knock-down male novel orphan nuclear receptor TR2 protein protein interaction receptor receptor function reproductive sperm cell tool transcription factor

项目摘要

DESCRIPTION (provided by applicant): Spermatogenesis is a complex developmental process where undifferentiated spermatogonia are differentiated into mature spermatozoa that are then able to fertilize oocytes. In mammals, this process involves hundreds of genes that are differentially regulated in spermatogenic tissue at particular stages of sperm differentiation. Identifying critical, regulatory genes controlling spermatogenesis can be significantly Informed through comparative gene expression and functional studies utilizing simpler animal models that have conserved developmental processes. My proposed research will characterize gene expression, protein-protein interactions, and gene silencing coupled with transcriptional profiling to elucidate the integral role of three orphan nuclear receptors (testicular orphan receptors and germ cell nuclear factor) in sperm development and differentiation utilizing the emerging model Nematostella vectensis (starlet sea anemone). Each of these receptors has been shown to be highly expressed in mammal testes at discrete stages of sperm differentiation; thus results from the proposed research will characterize novel roles for nuclear receptor function related to human male fertility. The proposed research supports the mission of the Reproductive Sciences Branch of The Eunice Kennedy Shriver National Institute of Child Health and Human Development by identifying genetic mechanisms that underlie reproductive health in humans. In addition, these three transcription factors, like other genes in the nuclear receptor superfamily, have pleiotropic roles in embryogenesis including roles in development of the nervous and cardiovascular system and in cancer due to expression in various embryonal carcinoma cell lines. I will take advantage of the experimental tractability and tools already developed for Nematostella to explore the additional roles of these receptors in embryo development and abnormal cell regulation. Relevance to Public Health Identifying and characterizing genes that play a fundamental role in human fertility is a critical step towards advancing diagnosis and treatment in human reproduction. Utilizing morphologically simple and experimentally tractable animal models to test specific molecular processes can result in rapid progress in understanding mechanisms. Nematostella, an emerging model system, will be used to study the role of three genes highly expressed and functionally important in male spermatogenesis to understand their role in differentiation of mature sperm from undifferentiated stem cells.

描述（由申请人提供）：精子发生是一个复杂的发育过程，其中未分化的精原细胞分化为成熟的精子，然后能够使卵母细胞受精。在哺乳动物中，这个过程涉及数百个基因，这些基因在精子分化的特定阶段在生精组织中受到差异性调节。通过使用具有保守发育过程的更简单的动物模型进行比较基因表达和功能研究，可以显着识别控制精子发生的关键调节基因。我提出的研究将描述基因表达、蛋白质-蛋白质相互作用、基因沉默以及转录谱分析，以利用新兴模型 Nematostella 阐明三种孤儿核受体（睾丸孤儿受体和生殖细胞核因子）在精子发育和分化中的整体作用vectensis（小星海葵）。这些受体中的每一种都已被证明在精子分化的不同阶段的哺乳动物睾丸中高度表达。因此，拟议研究的结果将表征与人类男性生育能力相关的核受体功能的新作用。拟议的研究通过确定人类生殖健康的遗传机制来支持尤尼斯·肯尼迪·施赖弗国家儿童健康和人类发展研究所生殖科学分部的使命。此外，这三种转录因子与核受体超家族中的其他基因一样，在胚胎发生中具有多效性作用，包括在神经和心血管系统发育中的作用以及由于在各种胚胎癌细胞系中表达而在癌症中的作用。我将利用已经为线虫开发的实验易处理性和工具来探索这些受体在胚胎发育和异常细胞调节中的额外作用。与公共卫生的相关性识别和表征在人类生育能力中发挥重要作用的基因是推进人类生殖诊断和治疗的关键一步。利用形态简单且实验上易于处理的动物模型来测试特定的分子过程可以导致对机制的理解快速进展。 Nematostella 是一种新兴的模型系统，将用于研究三个在男性精子发生中高度表达且功能重要的基因的作用，以了解它们在成熟精子与未分化干细胞分化过程中的作用。