MYCBPAP 是小鼠中心体-核包膜对接和精子尾部生物生成所需的中心器蛋白。

IF 4.3 3区 材料科学 Q1 ENGINEERING, ELECTRICAL & ELECTRONIC ACS Applied Electronic Materials Pub Date : 2024-08-15 Epub Date: 2024-08-29 DOI:10.1242/jcs.261962
Haoting Wang, Hiroko Kobayashi, Keisuke Shimada, Seiya Oura, Yuki Oyama, Hiroaki Kitakaze, Taichi Noda, Norikazu Yabuta, Haruhiko Miyata, Masahito Ikawa
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引用次数: 0

摘要

精子鞭毛轴丝的结构在不同物种间高度保守,其基本功能是产生运动,促进精子与卵子相遇。在精子形成过程中,轴丝从中心体伸长,随后中心体与核包膜对接,继续尾部生物形成。Mycbpap 主要在小鼠和人类睾丸中表达,在衣藻中作为 FAP147 而保留下来。之前的冷冻电镜分析显示,FAP147 定位于轴丝的中央装置。在这里,我们产生了Mycbpap基因敲除小鼠,并证明了Mycbpap在雄性生育能力中的重要作用。Mycbpap基因缺失会导致中心体-核包膜对接紊乱和鞭毛生物发生异常。此外,我们用标记的MYCBPAP产生了转基因小鼠,从而恢复了Mycbpap基因敲除雄性的生育能力。利用Mycbpap转基因小鼠对MYCBPAP进行的相互作用组分析揭示了MYCBPAP的结合伙伴,包括构成C2a突起的CFAP65和CFAP70等中心器蛋白以及CCP110等中心体相关蛋白。这些发现深入揭示了依赖 MYCBPAP 的中心体-核包膜对接和精子尾部生物生成调控。
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MYCBPAP is a central apparatus protein required for centrosome-nuclear envelope docking and sperm tail biogenesis in mice.

The structure of the sperm flagellar axoneme is highly conserved across species and serves the essential function of generating motility to facilitate the meeting of spermatozoa with the egg. During spermiogenesis, the axoneme elongates from the centrosome, and subsequently the centrosome docks onto the nuclear envelope to continue tail biogenesis. Mycbpap is expressed predominantly in mouse and human testes and conserved in Chlamydomonas as FAP147. A previous cryo-electron microscopy analysis has revealed the localization of FAP147 to the central apparatus of the axoneme. Here, we generated Mycbpap-knockout mice and demonstrated the essential role of Mycbpap in male fertility. Deletion of Mycbpap led to disrupted centrosome-nuclear envelope docking and abnormal flagellar biogenesis. Furthermore, we generated transgenic mice with tagged MYCBPAP, which restored the fertility of Mycbpap-knockout males. Interactome analyses of MYCBPAP using Mycbpap transgenic mice unveiled binding partners of MYCBPAP including central apparatus proteins, such as CFAP65 and CFAP70, which constitute the C2a projection, and centrosome-associated proteins, such as CCP110. These findings provide insights into a MYCBPAP-dependent regulation of the centrosome-nuclear envelope docking and sperm tail biogenesis.

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