Autophagy-mediated Metabolic Effects of Aspirin

Overview

Journal Cell Death Discov

Date 2020 Dec 10

PMID 33298861

Citations 11

Authors

Francesca Castoldi

Juliette Humeau

Isabelle Martins

Sylvie Lachkar

Damarys Loew

Florent Dingli

Sylvere Durand

David Enot

Noelie Bossut

Alexis Chery

Fanny Aprahamian

Yohann Demont

Paule Opolon

Nicolas Signolle

Allan Sauvat

Michaela Semeraro

Lucillia Bezu

Elisa Elena Baracco

Erika Vacchelli

Jonathan G Pol

Sarah Levesque

Norma Bloy

Valentina Sica

Maria Chiara Maiuri

Guido Kroemer

Federico Pietrocola

Affiliations

Soon will be listed here.

Abstract

Salicylate, the active derivative of aspirin (acetylsalicylate), recapitulates the mode of action of caloric restriction inasmuch as it stimulates autophagy through the inhibition of the acetyltransferase activity of EP300. Here, we directly compared the metabolic effects of aspirin medication with those elicited by 48 h fasting in mice, revealing convergent alterations in the plasma and the heart metabolome. Aspirin caused a transient reduction of general protein acetylation in blood leukocytes, accompanied by the induction of autophagy. However, these effects on global protein acetylation could not be attributed to the mere inhibition of EP300, as determined by epistatic experiments and exploration of the acetyl-proteome from salicylate-treated EP300-deficient cells. Aspirin reduced high-fat diet-induced obesity, diabetes, and hepatosteatosis. These aspirin effects were observed in autophagy-competent mice but not in two different models of genetic (Atg4b or Bcln1) autophagy-deficiency. Aspirin also improved tumor control by immunogenic chemotherapeutics, and this effect was lost in T cell-deficient mice, as well as upon knockdown of an essential autophagy gene (Atg5) in cancer cells. Hence, the health-improving effects of aspirin depend on autophagy.

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