Frontiers in Cell and Developmental Biology (Sep 2020)

Inducible Rpt3, a Proteasome Component, Knockout in Adult Skeletal Muscle Results in Muscle Atrophy

  • Yasuo Kitajima,
  • Naoki Suzuki,
  • Naoki Suzuki,
  • Kiyoshi Yoshioka,
  • Rumiko Izumi,
  • Maki Tateyama,
  • Maki Tateyama,
  • Yoshitaka Tashiro,
  • Ryosuke Takahashi,
  • Masashi Aoki,
  • Yusuke Ono

DOI
https://doi.org/10.3389/fcell.2020.00859
Journal volume & issue
Vol. 8

Abstract

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The ubiquitin–proteasome system has the capacity to degrade polyubiquitinated proteins and plays an important role in many cellular processes. However, the role of Rpt3, a crucial proteasomal gene, has not been investigated in adult muscles in vivo. Herein, we generated skeletal-muscle-specific Rpt3 knockout mice, in which genetic inactivation of Rpt3 could be induced by doxycycline administration. The Rpt3-knockout mice showed a significant reduction by more than 90% in the expression of Rpt3 in adult muscles. Using this model, we found that proteasome dysfunction in adult muscles resulted in muscle wasting and a decrease in the myofiber size. Immunoblotting analysis showed that the amounts of ubiquitinated proteins were markedly higher in muscles of Rpt3-deficient mice than in those of the control mice. Analysis of the autophagy pathway in the Rpt3-deficient mice showed that the upregulation of LC3II, p62, Atg5, Atg7, and Beclin-1 in protein levels, which supposed to be compensatory proteolysis activation. Our results suggest that the proteasome inhibition in adult muscle severely deteriorates myofiber integrity and results in muscle atrophy.

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