Nature Communications (Sep 2024)

Activation of parkin by a molecular glue

  • Véronique Sauvé,
  • Eric Stefan,
  • Nathalie Croteau,
  • Thomas Goiran,
  • Rayan Fakih,
  • Nupur Bansal,
  • Adelajda Hadzipasic,
  • Jing Fang,
  • Paramasivam Murugan,
  • Shimin Chen,
  • Edward A. Fon,
  • Warren D. Hirst,
  • Laura F. Silvian,
  • Jean-François Trempe,
  • Kalle Gehring

DOI
https://doi.org/10.1038/s41467-024-51889-3
Journal volume & issue
Vol. 15, no. 1
pp. 1 – 12

Abstract

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Abstract Mutations in parkin and PINK1 cause early-onset Parkinson’s disease (EOPD). The ubiquitin ligase parkin is recruited to damaged mitochondria and activated by PINK1, a kinase that phosphorylates ubiquitin and the ubiquitin-like domain of parkin. Activated phospho-parkin then ubiquitinates mitochondrial proteins to target the damaged organelle for degradation. Here, we present the mechanism of activation of a new class of small molecule allosteric modulators that enhance parkin activity. The compounds act as molecular glues to enhance the ability of phospho-ubiquitin (pUb) to activate parkin. Ubiquitination assays and isothermal titration calorimetry with the most active compound (BIO-2007817) identify the mechanism of action. We present the crystal structure of a closely related compound (BIO-1975900) bound to a complex of parkin and two pUb molecules. The compound binds next to pUb on RING0 and contacts both proteins. Hydrogen-deuterium exchange mass spectrometry (HDX-MS) experiments confirm that activation occurs through release of the catalytic Rcat domain. In organello and mitophagy assays demonstrate that BIO-2007817 partially rescues the activity of parkin EOPD mutants, R42P and V56E, offering a basis for the design of activators as therapeutics for Parkinson’s disease.