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一种I型DnaJ同源物DjA1调节雄激素受体信号传导和精子发生。

A type I DnaJ homolog, DjA1, regulates androgen receptor signaling and spermatogenesis.

作者信息

Terada Kazutoyo, Yomogida Kentaro, Imai Tomoaki, Kiyonari Hiroshi, Takeda Naoki, Kadomatsu Tsuyoshi, Yano Masato, Aizawa Shinichi, Mori Masataka

机构信息

Department of Molecular Genetics, Graduate School of Medical Sciences, Kumamoto University, Kumamoto, Japan.

出版信息

EMBO J. 2005 Feb 9;24(3):611-22. doi: 10.1038/sj.emboj.7600549. Epub 2005 Jan 20.

DOI:10.1038/sj.emboj.7600549
PMID:15660130
原文链接:https://pmc.ncbi.nlm.nih.gov/articles/PMC548655/
Abstract

Two type I DnaJ homologs DjA1 (DNAJA1; dj2, HSDJ/hdj-2, rdj1) and DjA2 (DNAJA2; dj3, rdj2) work similarly as a cochaperone of Hsp70s in protein folding and mitochondrial protein import in vitro. To study the in vivo role of DjA1, we generated DjA1-mutant mice. Surprisingly, loss of DjA1 in mice led to severe defects in spermatogenesis that involve aberrant androgen signaling. Transplantation experiments with green fluorescent protein-labeled spermatogonia into DjA1(-/-) mice revealed a primary defect of Sertoli cells in maintaining spermiogenesis at steps 8 and 9. In Sertoli cells of DjA1(-/-) mice, the androgen receptor markedly accumulated with enhanced transcription of several androgen-responsive genes, including Pem and testin. Disruption of Sertoli-germ cell adherens junctions was also evident in DjA1(-/-) mice. Experiments with DjA1(-/-) fibroblasts and primary Sertoli cells indicated aberrant androgen receptor signaling. These results revealed a critical role of DjA1 in spermiogenesis and suggest that DjA1 and DjA2 are not functionally equivalent in vivo.

摘要

两种I型DnaJ同源蛋白DjA1(DNAJA1;dj2、HSDJ/hdj - 2、rdj1)和DjA2(DNAJA2;dj3、rdj2)在体外蛋白质折叠和线粒体蛋白质导入过程中作为Hsp70s的共伴侣发挥相似作用。为了研究DjA1在体内的作用,我们构建了DjA1突变小鼠。令人惊讶的是,小鼠中DjA1的缺失导致精子发生严重缺陷,这涉及异常的雄激素信号传导。将绿色荧光蛋白标记的精原细胞移植到DjA1(-/-)小鼠体内的实验揭示了支持细胞在维持精子发生第8步和第9步过程中的主要缺陷。在DjA1(-/-)小鼠的支持细胞中,雄激素受体明显积累,同时包括Pem和testin在内的几个雄激素反应基因的转录增强。DjA1(-/-)小鼠中支持细胞 - 生殖细胞黏附连接的破坏也很明显。对DjA1(-/-)成纤维细胞和原代支持细胞的实验表明存在异常的雄激素受体信号传导。这些结果揭示了DjA1在精子发生中的关键作用,并表明DjA1和DjA2在体内功能并不等同。

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