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小鼠乳酸脱氢酶C(Ldhc)基因表达的调控

Regulation of murine lactate dehydrogenase C (Ldhc) gene expression.

作者信息

Tang HuangHui, Kung Aisha, Goldberg Erwin

机构信息

Department of Biochemistry, Molecular Biology and Cell Biology, Northwestern University, 2205 Tech Drive, Evanston, IL 60208, USA.

出版信息

Biol Reprod. 2008 Mar;78(3):455-61. doi: 10.1095/biolreprod.107.064964. Epub 2007 Dec 5.

DOI:10.1095/biolreprod.107.064964
PMID:18057313
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC2311504/
Abstract

Expression of Ldhc begins with the onset of meiosis in male germ cells and continues throughout spermatogenesis. Transcriptional regulatory mechanisms, especially in primary spermatocytes, are poorly described because of the lack of a reliable cell culture system. We constructed mouse transgenics and transfected germ cells in situ to study expression of the testis-specific isozyme of lactate dehydrogenase (LDH). From previous work, we determined that a 100-bp Ldhc core promoter contained potential cis regulatory elements, including a palindrome (-21 to +10), GC box (-70 to -65), and cAMP-responsive element (CRE) sites (-53 to -49, -39 to -35). We provide here the demonstration of a functional role for these sequences by expression of mutated transgenes in vivo. Our results reveal for the first time that mutation of the GC box does not abolish promoter activity, which remains testis-specific. Mutation of GC box or CRE sites resulted in a 73% and 74% reduction in promoter activity, respectively, in a transient transfection of germ cells in vivo by electroporation; the combination of GC box and CRE site mutations eliminates promoter activity. Therefore, we conclude that simultaneous occupancy of the GC box and CRE sites in the core promoter is necessary for full expression of Ldhc in the testis.

摘要

Ldhc的表达始于雄性生殖细胞减数分裂开始时,并在整个精子发生过程中持续存在。由于缺乏可靠的细胞培养系统,转录调控机制,尤其是在初级精母细胞中的调控机制,目前描述甚少。我们构建了小鼠转基因并原位转染生殖细胞,以研究睾丸特异性乳酸脱氢酶(LDH)同工酶的表达。根据之前的研究工作,我们确定一个100bp的Ldhc核心启动子包含潜在的顺式调控元件,包括一个回文序列(-21至+10)、GC盒(-70至-65)和cAMP反应元件(CRE)位点(-53至-49,-39至-35)。我们在此通过体内突变转基因的表达来证明这些序列的功能作用。我们的结果首次揭示,GC盒的突变并不消除启动子活性,该活性仍具有睾丸特异性。在通过电穿孔对体内生殖细胞进行瞬时转染时,GC盒或CRE位点的突变分别导致启动子活性降低73%和74%;GC盒和CRE位点突变的组合消除了启动子活性。因此,我们得出结论,核心启动子中GC盒和CRE位点的同时占据对于Ldhc在睾丸中的充分表达是必要的。

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