Biology Open (Nov 2012)

Mouse zygote-specific proteasome assembly chaperone important for maternal-to-zygotic transition

  • Seung-Wook Shin,
  • Natsumi Shimizu,
  • Mikiko Tokoro,
  • Satoshi Nishikawa,
  • Yuki Hatanaka,
  • Masayuki Anzai,
  • Jun Hamazaki,
  • Satoshi Kishigami,
  • Kazuhiro Saeki,
  • Yoshihiko Hosoi,
  • Akira Iritani,
  • Shigeo Murata,
  • Kazuya Matsumoto

DOI
https://doi.org/10.1242/bio.20123020
Journal volume & issue
Vol. 2, no. 2
pp. 170 – 182

Abstract

Read online

Summary During the maternal-to-zygotic transition (MZT), maternal proteins in oocytes are degraded by the ubiquitin–proteasome system (UPS), and new proteins are synthesized from the zygotic genome. However, the specific mechanisms underlying the UPS at the MZT are not well understood. We identified a molecule named zygote-specific proteasome assembly chaperone (ZPAC) that is specifically expressed in mouse gonads, and expression of ZPAC was transiently increased at the mouse MZT. ZPAC formed a complex with Ump1 and associated with precursor forms of 20S proteasomes. Transcription of ZPAC genes was also under the control of an autoregulatory feedback mechanism for the compensation of reduced proteasome activity similar to Ump1 and 20S proteasome subunit gene expression. Knockdown of ZPAC in early embryos caused a significant reduction of proteasome activity and decrease in Ump1 and mature proteasomes, leading to accumulation of proteins that need to be degraded at the MZT and early developmental arrest. Therefore, a unique proteasome assembly pathway mediated by ZPAC is important for progression of the mouse MZT.

Keywords