The Journal of Clinical Investigation (Jan 2022)

Anakinra restores cellular proteostasis by coupling mitochondrial redox balance to autophagy

  • Frank L. van de Veerdonk,
  • Giorgia Renga,
  • Marilena Pariano,
  • Marina M. Bellet,
  • Giuseppe Servillo,
  • Francesca Fallarino,
  • Antonella De Luca,
  • Rossana G. Iannitti,
  • Danilo Piobbico,
  • Marco Gargaro,
  • Giorgia Manni,
  • Fiorella D’Onofrio,
  • Claudia Stincardini,
  • Luigi Sforna,
  • Monica Borghi,
  • Marilena Castelli,
  • Stefania Pieroni,
  • Vasileios Oikonomou,
  • Valeria R. Villella,
  • Matteo Puccetti,
  • Stefano Giovagnoli,
  • Roberta Galarini,
  • Carolina Barola,
  • Luigi Maiuri,
  • Maria Agnese Della Fazia,
  • Barbara Cellini,
  • Vincenzo Nicola Talesa,
  • Charles A. Dinarello,
  • Claudio Costantini,
  • Luigina Romani

Journal volume & issue
Vol. 132, no. 2

Abstract

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Autophagy selectively degrades aggregation-prone misfolded proteins caused by defective cellular proteostasis. However, the complexity of autophagy may prevent the full appreciation of how its modulation could be used as a therapeutic strategy in disease management. Here, we define a molecular pathway through which recombinant IL-1 receptor antagonist (IL-1Ra, anakinra) affects cellular proteostasis independently from the IL-1 receptor (IL-1R1). Anakinra promoted H2O2-driven autophagy through a xenobiotic sensing pathway involving the aryl hydrocarbon receptor that, activated through the indoleamine 2,3-dioxygenase 1-kynurenine pathway, transcriptionally activated NADPH oxidase 4 independent of the IL-1R1. By coupling the mitochondrial redox balance to autophagy, anakinra improved the dysregulated proteostasis network in murine and human cystic fibrosis. We anticipate that anakinra may represent a therapeutic option in addition to its IL-1R1–dependent antiinflammatory properties by acting at the intersection of mitochondrial oxidative stress and autophagy with the capacity to restore conditions in which defective proteostasis leads to human disease.

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