Nature Communications (May 2023)

Allosteric regulation of the 20S proteasome by the Catalytic Core Regulators (CCRs) family

  • Fanindra Kumar Deshmukh,
  • Gili Ben-Nissan,
  • Maya A. Olshina,
  • Maria G. Füzesi-Levi,
  • Caley Polkinghorn,
  • Galina Arkind,
  • Yegor Leushkin,
  • Irit Fainer,
  • Sarel J. Fleishman,
  • Dan Tawfik,
  • Michal Sharon

DOI
https://doi.org/10.1038/s41467-023-38404-w
Journal volume & issue
Vol. 14, no. 1
pp. 1 – 24

Abstract

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Abstract Controlled degradation of proteins is necessary for ensuring their abundance and sustaining a healthy and accurately functioning proteome. One of the degradation routes involves the uncapped 20S proteasome, which cleaves proteins with a partially unfolded region, including those that are damaged or contain intrinsically disordered regions. This degradation route is tightly controlled by a recently discovered family of proteins named Catalytic Core Regulators (CCRs). Here, we show that CCRs function through an allosteric mechanism, coupling the physical binding of the PSMB4 β-subunit with attenuation of the complex’s three proteolytic activities. In addition, by dissecting the structural properties that are required for CCR-like function, we could recapitulate this activity using a designed protein that is half the size of natural CCRs. These data uncover an allosteric path that does not involve the proteasome’s enzymatic subunits but rather propagates through the non-catalytic subunit PSMB4. This way of 20S proteasome-specific attenuation opens avenues for decoupling the 20S and 26S proteasome degradation pathways as well as for developing selective 20S proteasome inhibitors.