SERCA2 phosphorylation at serine 663 is a key regulator of Ca2+ homeostasis in heart diseases

Fabrice Gonnot; Laura Boulogne; Camille Brun; Maya Dia; Yves Gouriou; Gabriel Bidaux; Christophe Chouabe; Claire Crola Da Silva; Sylvie Ducreux; Bruno Pillot; Andrea Kaczmarczyk; Christelle Leon; Stephanie Chanon; Coralie Perret; Franck Sciandra; Tanushri Dargar; Vincent Gache; Fadi Farhat; Laurent Sebbag; Thomas Bochaton; Helene Thibault; Michel Ovize; Melanie Paillard; Ludovic Gomez

doi:10.1038/s41467-023-39027-x

Nature Communications (Jun 2023)

SERCA2 phosphorylation at serine 663 is a key regulator of Ca2+ homeostasis in heart diseases

Fabrice Gonnot,
Laura Boulogne,
Camille Brun,
Maya Dia,
Yves Gouriou,
Gabriel Bidaux,
Christophe Chouabe,
Claire Crola Da Silva,
Sylvie Ducreux,
Bruno Pillot,
Andrea Kaczmarczyk,
Christelle Leon,
Stephanie Chanon,
Coralie Perret,
Franck Sciandra,
Tanushri Dargar,
Vincent Gache,
Fadi Farhat,
Laurent Sebbag,
Thomas Bochaton,
Helene Thibault,
Michel Ovize,
Melanie Paillard,
Ludovic Gomez

Affiliations

Fabrice Gonnot: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Laura Boulogne: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Camille Brun: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Maya Dia: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Yves Gouriou: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Gabriel Bidaux: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Christophe Chouabe: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Claire Crola Da Silva: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Sylvie Ducreux: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Bruno Pillot: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Andrea Kaczmarczyk: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Christelle Leon: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Stephanie Chanon: Laboratoire CarMeN, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon, Functional Lipidomic Plateform
Coralie Perret: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Franck Sciandra: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Tanushri Dargar: Institut NeuroMyoGène INMG-PNMG, CNRS UMR5261, INSERM U1315, Université Claude Bernard Lyon 1
Vincent Gache: Institut NeuroMyoGène INMG-PNMG, CNRS UMR5261, INSERM U1315, Université Claude Bernard Lyon 1
Fadi Farhat: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Laurent Sebbag: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Thomas Bochaton: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Helene Thibault: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Michel Ovize: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Melanie Paillard: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon
Ludovic Gomez: Laboratoire CarMeN - IRIS Team, INSERM, INRA, Université Claude Bernard Lyon-1, INSA-Lyon, Univ-Lyon

DOI: https://doi.org/10.1038/s41467-023-39027-x
Journal volume & issue: Vol. 14, no. 1
pp. 1 – 18

Abstract

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Abstract Despite advances in cardioprotection, new therapeutic strategies capable of preventing ischemia-reperfusion injury of patients are still needed. Here, we discover that sarcoplasmic/endoplasmic reticulum Ca2+ ATPase (SERCA2) phosphorylation at serine 663 is a clinical and pathophysiological event of cardiac function. Indeed, the phosphorylation level of SERCA2 at serine 663 is increased in ischemic hearts of patients and mouse. Analyses on different human cell lines indicate that preventing serine 663 phosphorylation significantly increases SERCA2 activity and protects against cell death, by counteracting cytosolic and mitochondrial Ca2+ overload. By identifying the phosphorylation level of SERCA2 at serine 663 as an essential regulator of SERCA2 activity, Ca2+ homeostasis and infarct size, these data contribute to a more comprehensive understanding of the excitation/contraction coupling of cardiomyocytes and establish the pathophysiological role and the therapeutic potential of SERCA2 modulation in acute myocardial infarction, based on the hotspot phosphorylation level of SERCA2 at serine 663 residue.

Published in Nature Communications

ISSN: 2041-1723 (Online)
Publisher: Nature Portfolio
Country of publisher: United Kingdom
LCC subjects: Science
Website: https://www.nature.com/ncomms/

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