Tingting Ge, Lu Yuan, Linwei Xu, Fan Yang, Wenhua Xu, Changmin Niu, Guanghua Li, Huiping Zhou, Ying Zheng
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引用次数: 0
摘要
中心体对维持精子头尾连接和鞭毛微管的形成至关重要。在这项研究中,我们发现在小鼠睾丸中,含卷盘结构域的蛋白159(CCDC159)特异性地定位在精子的头尾耦合器(HTCA)上,该结构可确保精子头尾紧密结合。CCDC159 含有一个 C 端线圈结构域,可作为中心体定位信号。小鼠基因敲除(KO)Ccdc159会导致畸形精子、鞭毛异常和男性不育。为了探索CCDC159调控精子发生的机制,我们通过酵母双杂交筛选确定了CCDC159结合蛋白,并推测CCDC159通过调控蛋白磷酸酶PP1的活性参与HTCA组装。Ccdc159 KO睾丸的进一步RNA序列分析显示,许多参与雄性配子生成的基因被下调。综上所述,我们的研究结果表明,精子中的CCDC159是一种新型中心体蛋白,可将精子头部固定在尾部。考虑到KO小鼠模型在阐明CCDC159在精子发生中的生物学功能方面的局限性,我们将在未来进行基因拯救实验。
Coiled-coil domain containing 159 is required for spermatid head and tail assembly in mice†.
The centrosome is critical for maintaining the sperm head-tail connection and the formation of flagellar microtubules. In this study, we found that in mouse testes, CCDC159 (coiled-coil domain-containing protein 159) is specifically localized to the head-tail coupling apparatus (HTCA) of spermatids, a structure that ensures sperm head-tail tight conjunction. CCDC159 contains a C-terminal coiled-coil domain that functions as the centrosomal localization signal. Gene knockout (KO) of Ccdc159 in mice resulted in acephalic spermatozoa, abnormal flagella, and male infertility. To explore the mechanism behind CCDC159 regulating spermatogenesis, we identified CCDC159-binding proteins using a yeast two-hybrid screen and speculated that CCDC159 participates in HTCA assembly by regulating protein phosphatase PP1 activity. Further RNA-sequencing analyses of Ccdc159 KO testes revealed numerous genes involved in male gamete generation that were downregulated. Together, our results show that CCDC159 in spermatids is a novel centrosomal protein anchoring the sperm head to the tail. Considering the limitation of KO mouse model in clarifying the biological function of CCDC159 in spermatogenesis, a gene-rescue experiment will be performed in the future.