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. 2020 Feb;578(7794):296-300.
doi: 10.1038/s41586-020-1982-9. Epub 2020 Feb 5.

Stress- and ubiquitylation-dependent phase separation of the proteasome

Sayaka Yasuda #  1 Hikaru Tsuchiya #  1 Ai Kaiho #  1 Qiang Guo  2 Ken Ikeuchi  3   4 Akinori Endo  1 Naoko Arai  1 Fumiaki Ohtake  1 Shigeo Murata  5 Toshifumi Inada  3 Wolfgang Baumeister  2 Rubén Fernández-Busnadiego  2   6   7 Keiji Tanaka  8 Yasushi Saeki  9
Affiliations

Stress- and ubiquitylation-dependent phase separation of the proteasome

Sayaka Yasuda et al. Nature. 2020 Feb.

Abstract

The proteasome is a major proteolytic machine that regulates cellular proteostasis through selective degradation of ubiquitylated proteins1,2. A number of ubiquitin-related molecules have recently been found to be involved in the regulation of biomolecular condensates or membraneless organelles, which arise by liquid-liquid phase separation of specific biomolecules, including stress granules, nuclear speckles and autophagosomes3-8, but it remains unclear whether the proteasome also participates in such regulation. Here we reveal that proteasome-containing nuclear foci form under acute hyperosmotic stress. These foci are transient structures that contain ubiquitylated proteins, p97 (also known as valosin-containing protein (VCP)) and multiple proteasome-interacting proteins, which collectively constitute a proteolytic centre. The major substrates for degradation by these foci were ribosomal proteins that failed to properly assemble. Notably, the proteasome foci exhibited properties of liquid droplets. RAD23B, a substrate-shuttling factor for the proteasome, and ubiquitylated proteins were necessary for formation of proteasome foci. In mechanistic terms, a liquid-liquid phase separation was triggered by multivalent interactions of two ubiquitin-associated domains of RAD23B and ubiquitin chains consisting of four or more ubiquitin molecules. Collectively, our results suggest that ubiquitin-chain-dependent phase separation induces the formation of a nuclear proteolytic compartment that promotes proteasomal degradation.

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