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Aggresomal sequestration and STUB1-mediated ubiquitylation during mammalian proteaphagy of inhibited proteasomes

Won Hoon Choi, Yejin Yun, Seoyoung Park, Jun Hyoung Jeon, Jeeyoung Lee, Jung Hoon Lee, Su‐A Yang, Nak-Kyoon Kim, Chan Hoon Jung, Yong Tae Kwon, Dohyun Han, Sang Min Lim, Min Jae Lee

2020Proceedings of the National Academy of Sciences67 citationsDOIOpen Access PDF

Abstract

The 26S proteasome, a self-compartmentalized protease complex, plays a crucial role in protein quality control. Multiple levels of regulatory systems modulate proteasomal activity for substrate hydrolysis. However, the destruction mechanism of mammalian proteasomes is poorly understood. We found that inhibited proteasomes are sequestered into the insoluble aggresome via HDAC6- and dynein-mediated transport. These proteasomes colocalized with the autophagic receptor SQSTM1 and cleared through selective macroautophagy, linking aggresomal segregation to autophagic degradation. This proteaphagic pathway was counterbalanced with the recovery of proteasomal activity and was critical for reducing cellular proteasomal stress. Changes in associated proteins and polyubiquitylation on inhibited 26S proteasomes participated in the targeting mechanism to the aggresome and autophagosome. The STUB1 E3 Ub ligase specifically ubiquitylated purified human proteasomes in vitro, mainly via Lys63-linked chains. Genetic and chemical inhibition of STUB1 activity significantly impaired proteasome processing and reduced resistance to proteasomal stress. These data demonstrate that aggresomal sequestration is the crucial upstream event for proteasome quality control and overall protein homeostasis in mammals.

Topics & Concepts

Cell biologyProteasomeUbiquitinChemistryBiologyBiochemistryGeneUbiquitin and proteasome pathwaysAutophagy in Disease and TherapyEndoplasmic Reticulum Stress and Disease
Aggresomal sequestration and STUB1-mediated ubiquitylation during mammalian proteaphagy of inhibited proteasomes | Litcius