MRNA Processing in Reproduction and Fertilization

生殖和受精中的 mRNA 加工

• 批准号: 8607045
• 负责人: Clinton C MacDonald
• 金额: $ 30.57万
• 依托单位: TEXAS TECH UNIVERSITY HEALTH SCIS CENTER
• 依托单位国家: 美国
• 财政年份: 1999
• 资助国家: 美国
• 起止时间: 1999-09-27 至 2016-01-31
• 项目状态: 已结题
• 来源: https://reporter.nih.gov/project-details/8607045
• 关键词: Antibodies; Beryllium; Binding; Binding Proteins; Biological Assay; C-terminal; Cell Culture Techniques; Cells; Chromosome Segregation; Chromosome Structures; Complement; Complementary DNA; Complex; Couples; Cultured Cells; DNA Transposable Elements; Data; Defect; Disease; Elements; Essential Genes; Exons; Family; Female; Fertility; Fertilization; Gene Expression; Genes; Genetic; Genetic screening method; Genomics; Germ Cells; Grant; Hereditary Disease; Human; Human Genetics; Human Genome; Immunoprecipitation; Individual; Infertility; Knockout Mice; Laboratory Study; Learning; Length; Luciferases; Male Infertility; Mediating; Meiosis; Messenger RNA; Metabolic; Metabolism; Molecular; Mus; Names; Nuclear; Patients; Phenotype; Physiological; Poly(A) Tail; Polyadenylation; Polyadenylation Pathway; Process; Production; Proteins; RNA; RNA Recognition Motif; RNA-Binding Proteins; RNA-Directed DNA Polymerase; Reproduction; Retroposon; Retrotransposition; Retrotransposon; Role; Running; Signal Transduction; Site; Somatic Cell; Spermatids; Spermatogenesis; Techniques; Testing; Testis; Tissues; Transfection; Transgenic Mice; Transgenic Organisms; Variant; Wild Type Mouse; base; crosslink; in vivo; mRNA Expression; mRNA Precursor; male; mouse genome; mutant; paralogous gene; public health relevance; reproductive; sperm cell; transcription factor

DESCRIPTION (provided by applicant): Polyadenylation-the addition of a poly(A) tail to an mRNA 32 end-is essential for gene expression in every tissue. However, fundamental features of polyadenylation-the RNA signals used, the sites chosen, and the proteins involved-are different in male germ cells than in any other tissue. These differences are essential for the correct expression of key genes during spermatogenesis, for example altering the protein forms of transcription factors or altering translational efficiency. DCstF-64 (gene name: Cstf2t) is the testis-expressed variant of CstF-64, an RNA-binding protein that regulates polyadenylation in somatic cells. DCstF-64 is essential for normal spermatogenesis: male Cstf2t knockout mice are infertile due to severe defects in meiotic and postmeiotic sperm production, a condition that resembles oligoasthenoteratozoospermia in human patients. We have found that Cstf2t controls polyadenylation of at least two important classes of genes, long interspersed nuclear elements (LINEs) and intronless small genes (ISGs). LINEs are mobile elements that are responsible for at least 70 genetic diseases, thus being a genomic and metabolic burden. DCstF-64 reduces LINE mRNAs by promoting polyadenylation at internal sites in the gene, thus reducing their abundance and suppressing their proliferation. To determine how DCstF-64 controls LINE expression, we will test whether exogenous DCstF-64 will suppress LINE mRNA expression, whether DCstF-64 binds to LINE mRNAs at internal polyadenylation sites, and whether exogenous DCstF-64 will suppress rates of retrotransposition in a cell culture assay. ISGs are expressed retroposons that control major functions in spermatogenesis (metabolism, gene expression, chromosome structure, and more). To determine how DCstF-64 regulates polyadenylation and termination of ISG mRNAs, we will test whether DCstF-64 is associated preferentially with ISG polyadenylation sites, whether exogenous DCstF-64 is required for correct polyadenylation of ISGs, and whether DCstF-64 is required for normal transcriptional termination of ISGs. Finally, to determine germ cell-specific functions of DCstF-64, we will perform a genetic test to determine whether CstF-64 will complement the Cstf2ttm1Ccma infertility phenotype, purify DCstF-64 complexes to look for germ cell-specific components, and test functions of DCstF-64 domains using a luciferase-based cell transfection assay and transgenic mice.

描述(申请人提供)：聚腺苷酸化--在信使核糖核酸32端加上一个多聚(A)尾巴--对每个组织中的基因表达是必不可少的。然而，在雄性生殖细胞中，多聚腺苷的基本特征--使用的RNA信号、选择的位置和涉及的蛋白质--与任何其他组织中的不同。这些差异对于精子发生过程中关键基因的正确表达是必不可少的，例如改变转录因子的蛋白质形式或改变翻译效率。DCstF-(基因名：Cstf2t)是CstF-的睾丸表达变异体，是一种调节体细胞多聚腺苷化的核糖核酸结合蛋白。DCstF-对于正常的精子发生是必不可少的：Cstf2t基因敲除的雄性小鼠由于减数分裂和减数分裂后精子产生的严重缺陷而不育，这种情况类似于人类患者的少弱畸形精子症。我们发现Cstf2t至少控制着两类重要基因的多聚腺苷酸化，长分布的核元件(LINE)和无内含子的小基因(ISG)。LINE是可移动的元件，至少导致70种遗传病，因此是基因组和代谢的负担。DCstF-通过促进基因内部位点的聚腺苷酸化来减少线状mRNAs，从而减少它们的丰度并抑制它们的增殖。为了确定DCstF-如何调控LINE的表达，我们将在细胞培养实验中检测外源DCstF-是否会抑制LINE基因的表达，DCstF-是否会与细胞内的多聚腺苷酸化位点结合，以及外源DCstF-是否会抑制逆转录转座的速率。ISG是一种表达的逆转录病毒，控制精子发生的主要功能(新陈代谢、基因表达、染色体结构等)。为了确定DCstF-如何调控ISG mRNAs的多腺化和终止，我们将测试DCstF-是否优先与ISG多腺化位点相关，是否需要外源DCstF-来正确地进行ISG的多腺基化，以及DCstF-是否需要DCstF-来正常转录终止ISG。最后，为了确定DCstF-的生殖细胞特异性功能，我们将进行遗传学测试，以确定CstF-是否会补充Cstf2ttm1Ccma不育症的表型，纯化DCstF-复合体以寻找生殖细胞特异性成分，并使用基于荧光素酶的细胞转染实验和转基因小鼠来测试DCstF-结构域的功能。