Cpne1 deficiency preserves sperm motility under Ca2+ channel blockade

Autor: Qiang XIE, Hanbin ZHANG, Yuge ZHUANG, Jinsheng LIU, Zicong HUANG, Xiaoyuan ZHANG, Ke MA, Wenyuan LIU, Minyu XIE, Chuyu HUANG, Xiaojing ZHONG, Feilong CHEN, Feng ZOU, Wansong ZHANG, Chunming QIU, Canbiao SUN, Xiangjin KANG, Zhenguo CHEN, Guofei ZHANG
Jazyk: angličtina
Rok vydání: 2024
Předmět:
Zdroj: The Journal of Reproduction and Development, Vol 70, Iss 5, Pp 309-319 (2024)
Druh dokumentu: article
ISSN: 0916-8818
1348-4400
DOI: 10.1262/jrd.2024-027
Popis: Calcium ions (Ca2+) play crucial roles in sperm motility and fertilization. The copine (CPNE) family comprises several Ca2+-dependent phospholipid-binding proteins. Of these, CPNE1 is extensively expressed in mammalian tissues; however, its precise role in testicular development and spermatogenesis is yet to be fully characterized. In this study, we used proteomics to analyze testicular biopsies and found that levels of CPNE1 were significantly reduced in patients with non-obstructive azoospermia (defective spermatogenesis) compared to those in patients with obstructive azoospermia (physiological spermatogenesis). In mice, CPNE1 is expressed at various stages of germ cell development and is associated with the Golgi apparatus. Ultimately, CPNE1 is expressed in the flagella of mature sperms. To further examine the role of CPNE1, we developed a Cpne1 knockout mouse model. Analysis showed that the loss of Cpne1 did not impair testicular development, spermatogenesis, or sperm morphology and motility in physiological conditions. When treated with gadolinium (III) chloride or 2-aminoethoxydiphenyl borate, known inhibitors of store-operated Ca2+ entry, Ca2+ signals and sperm motility were significantly compromised in wild-type mice; however, both mechanisms were conserved in KO mice. These results suggested that CPNE1 is dispensable for testicular development, spermatogenesis or sperm motility in physiological conditions. In addition, CPNE1 may represent a target of Ca2+ channel inhibitors and may therefore be implicated in the regulation of Ca2+ signaling and sperm motility.
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