ABSTRACT:Karyotype instability in the germline leads to infertility. Unlike the female germline, the male germline continuously produces fertile sperm throughout life. Here, we present a molecular network responsible for maintaining karyotype stability in the male mouse germline. Loss of the cyclin-dependent kinase inhibitor Cdkn1c in undifferentiated spermatogonia induced degeneration of spermatogenesis prior to entry into the differentiating spermatogonia stage. In vitro analysis of mouse spermatogonial stem cells revealed that CDKN1C localized to spindle microtubules during metaphase, and that disrupted microtubule dynamics increased its phosphorylation. Cdkn1c deficiency activated the spindle assembly checkpoint and led to centrosome amplification, premature chromosome segregation, and loss of AURKB, and ultimately TRP53-dependent apoptosis. Trp53-deficient spermatogonial stem cells exhibited karyotype defects, but proliferated normally despite reduced CDKN1C and AURKB expression. In contrast, Aurkb depletion upregulated TRP53 and CDKN1C, suggesting a negative feedback loop to maintain euploidy. Thus, Cdkn1c regulates the male germline karyotype.