RT Journal Article
SR Electronic
T1 Aurora B and C kinases regulate prophase exit and chromosome segregation during spermatogenesis
JF bioRxiv
FD Cold Spring Harbor Laboratory
SP 868836
DO 10.1101/868836
A1 Stephen R. Wellard
A1 Karen Schindler
A1 Philip Jordan
YR 2019
UL http://biorxiv.org/content/early/2019/12/11/868836.abstract
AB Precise control of chromosome dynamics during meiosis is critical for fertility. A gametocyte undergoing meiosis coordinates formation of the synaptonemal complex (SC) to promote efficient homologous chromosome recombination. Subsequent disassembly of the SC is required prior to meiotic divisions to ensure accurate segregation of chromosomes. We examined the requirements of the mammalian Aurora kinases (AURKA, B, and C) during SC disassembly and chromosome segregation using a combination of chemical inhibition and gene deletion approaches. We find that both mouse and human spermatocytes fail to disassemble SC lateral elements when AURKB and AURKC are inhibited. Interestingly, both Aurkb conditional knockout and Aurkc knockout spermatocytes successfully progress through meiosis and mice are fertile. In contrast, Aurkb, Aurkc double knockout spermatocytes failed to coordinate disassembly of SC lateral elements with chromosome segregation, resulting in delayed meiotic progression, spindle assembly checkpoint failure, chromosome missegregation, and abnormal spermatids. Collectively, our data demonstrates that AURKB and AURKC functionally compensate for one another ensuring successful mammalian spermatogenesis.SUMMARY Chemical inhibition and gene deletion approaches show that Aurora B and Aurora C have overlapping functions that ensure timely disassembly of lateral element components of the synaptonemal complex in mouse and human spermatocytes and ensure accurate chromosome segregation during meiosis.