Loss of Axdnd1 causes sterility due to impaired spermatid differentiation in mice

Yuki Hiradate; Ryua Harima; Rin Yanai; Kenshiro Hara; Kazue Nagasawa; Makoto Osada; Tomoe Kobayashi; Makoto Matsuyama; Shin‐ichiro Kanno; Akira Yasui; Kentaro Tanemura

doi:10.1002/rmb2.12452

Reproductive Medicine and Biology (Jan 2022)

Loss of Axdnd1 causes sterility due to impaired spermatid differentiation in mice

Yuki Hiradate,
Ryua Harima,
Rin Yanai,
Kenshiro Hara,
Kazue Nagasawa,
Makoto Osada,
Tomoe Kobayashi,
Makoto Matsuyama,
Shin‐ichiro Kanno,
Akira Yasui,
Kentaro Tanemura

Affiliations

Yuki Hiradate: Laboratory of Animal Reproduction and Development Graduate School of Agricultural Science Tohoku University Sendai Japan
Ryua Harima: Laboratory of Animal Reproduction and Development Graduate School of Agricultural Science Tohoku University Sendai Japan
Rin Yanai: Laboratory of Animal Reproduction and Development Graduate School of Agricultural Science Tohoku University Sendai Japan
Kenshiro Hara: Laboratory of Animal Reproduction and Development Graduate School of Agricultural Science Tohoku University Sendai Japan
Kazue Nagasawa: Laboratory of Aquacultural Biology Graduate School of Agricultural Science Tohoku University Sendai Japan
Makoto Osada: Laboratory of Aquacultural Biology Graduate School of Agricultural Science Tohoku University Sendai Japan
Tomoe Kobayashi: Division of Molecular Genetics Shigei Medical Research Institute Okayama Japan
Makoto Matsuyama: Division of Molecular Genetics Shigei Medical Research Institute Okayama Japan
Shin‐ichiro Kanno: Division of Dynamic Proteome and IDAC Fellow Research Group for DNA Repair and Dynamic Proteome Institute of Development Aging and Cancer (IDAC) Tohoku University Sendai Japan
Akira Yasui: Division of Dynamic Proteome and IDAC Fellow Research Group for DNA Repair and Dynamic Proteome Institute of Development Aging and Cancer (IDAC) Tohoku University Sendai Japan
Kentaro Tanemura: Laboratory of Animal Reproduction and Development Graduate School of Agricultural Science Tohoku University Sendai Japan

DOI: https://doi.org/10.1002/rmb2.12452
Journal volume & issue: Vol. 21, no. 1
pp. n/a – n/a

Abstract

Read online

Abstract Purpose Spermiogenesis, the process of deformation of sperm head morphology and flagella formation, is a phenomenon unique to sperm. Axonemal dynein light chain proteins are localized to sperm flagella and are known to be involved in sperm motility. Here, we focused on the gene axonemal dynein light chain domain containing 1 (Axdnd1) with the aim to determine the function of its protein product AXDND1. Methods To elucidate the role of AXDND1 in spermatogenesis, we generated Axdnd1 knockout (KO) mice using the CRISPR/Cas9 system. The generated mice were subjected to fertility tests and analyzed by immunohistochemistry. Result The Axdnd1 KO mouse exhibited sterility caused by impaired spermiogenesis during the elongation step as well as abnormal nuclear shaping and manchette, which are essential for spermiogenesis. Moreover, AXDND1 showed enriched testicular expression and was localized from the mid‐pachytene spermatocytes to the early spermatids. Conclusion Axdnd1 is essential for spermatogenesis in the mouse testes. These findings improve our understanding of spermiogenesis and related defects. According to a recent report, deleterious heterozygous mutations in AXDND1 were found in non‐obstructive azoospermia (NOA) patients. Therefore, Axdnd1 KO mice could be used as a model system for NOA, which will greatly contribute to future NOA treatment studies.

Published in Reproductive Medicine and Biology

ISSN: 1445-5781 (Print); 1447-0578 (Online)
Publisher: Wiley
Country of publisher: Japan
LCC subjects: Medicine: Internal medicine: Specialties of internal medicine: Diseases of the endocrine glands. Clinical endocrinology; Science: Biology (General): Reproduction
Website: http://onlinelibrary.wiley.com/journal/10.1111/(ISSN)1447-0578

About the journal

Abstract

Keywords