Abstract
AbstractInner dynein arms (IDAs) are formed from a protein complex that is essential for appropriate flagellar bending and beating. IDA defects have previously been linked to the incidence of asthenozoospermia (AZS) and male infertility. The testes-enriched ZMYND12 protein is homologous with an IDA component identified in Chlamydomonas. ZMYND12 deficiency has previously been tied to infertility in males, yet the underlying mechanism remains uncertain. Here, a CRISPR/Cas9 approach was employed to generate Zmynd12 knockout (Zmynd12−/−) mice. These Zmynd12−/− mice exhibited significant male subfertility, reduced sperm motile velocity, and impaired capacitation. Through a combination of co-immunoprecipitation and mass spectrometry, ZMYND12 was found to interact with TTC29 and PRKACA. Decreases in the levels of PRKACA were evident in the sperm of these Zmynd12−/− mice, suggesting that this change may account for the observed drop in male fertility. Moreover, in a cohort of patients with AZS, one patient carrying a ZMYND12 variant was identified, expanding the known AZS-related variant spectrum. Together, these findings demonstrate that ZMYND12 is essential for flagellar beating, capacitation, and male fertility.
Funder
National Natural Science Foundation of China
the Key Project of Natural Science Foundation for Universities of Anhui Province Education Department
Huai’an Municipal Science and Technology Bureau
Anhui Provincial Department of Science and Technology
the exceptional support plan of talent introduction of Anhui University of Chinese Medicine
the Science and Technology development Fundation of Nanjing Medical Univertisy
Natural Science Foundation of Ningbo Municipality
Publisher
Springer Science and Business Media LLC