Cyclosporine A inhibits MRTF‐SRF signaling through Na+/K+ ATPase inhibition and actin remodeling

Bastien Burat; Quentin Faucher; Petra Čechová; Hélène Arnion; Florent Di Meo; François‐Ludovic Sauvage; Pierre Marquet; Marie Essig

doi:10.1096/fba.2019-00027

FASEB BioAdvances (Sep 2019)

Cyclosporine A inhibits MRTF‐SRF signaling through Na+/K+ ATPase inhibition and actin remodeling

Bastien Burat,
Quentin Faucher,
Petra Čechová,
Hélène Arnion,
Florent Di Meo,
François‐Ludovic Sauvage,
Pierre Marquet,
Marie Essig

Affiliations

Bastien Burat: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
Quentin Faucher: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
Petra Čechová: Department of Biophysics, Centre of the Region Haná for Biotechnological and Agricultural Research, Faculty of Science Palacký University Olomouc Olomouc Czech Republic
Hélène Arnion: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
Florent Di Meo: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
François‐Ludovic Sauvage: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
Pierre Marquet: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France
Marie Essig: Centre for Biology & Health Research, UMR INSERM 1248 IPPRIT (Individual Profiling and Prevention of RIsks in Transplantation) Limoges University Limoges France

DOI: https://doi.org/10.1096/fba.2019-00027
Journal volume & issue: Vol. 1, no. 9
pp. 561 – 578

Abstract

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Abstract Calcineurin inhibitors (CNI) are the pillars of immunosuppression in transplantation. However, they display a potent nephrotoxicity whose mechanisms remained widely unsolved. We used an untargeted quantitative proteomic approach (iTRAQ technology) to highlight new targets of CNI in renal proximal tubular cells (RPTCs). CNI‐treated RPTCs proteome displayed an over‐representation of actin‐binding proteins with a CNI‐specific expression profile. Cyclosporine A (CsA) induced F‐actin remodeling and depolymerization, decreased F‐actin‐stabilizing, polymerization‐promoting cofilin (CFL) oligomers, and inhibited the G‐actin‐regulated serum response factor (SRF) pathway. Inhibition of CFL canonical phosphorylation pathway reproduced CsA effects; however, S3‐R, an analogue of the phosphorylation site of CFL prevented the effects of CsA which suggests that CsA acted independently from the canonical CFL regulation. CFL is known to be regulated by the Na+/K+‐ATPase. Molecular docking calculations identified two inhibiting sites of CsA on Na+/K+‐ATPase and a 23% decrease in Na+/K+‐ATPase activity of RPTCs was observed with CsA. Ouabain, a specific inhibitor of Na+/K+‐ATPase also reproduced CsA effects on actin organization and SRF activity. Altogether, these results described a new original pathway explaining CsA nephrotoxicity.

Published in FASEB BioAdvances

ISSN: 2573-9832 (Online)
Publisher: Wiley
Country of publisher: United States
LCC subjects: Science: Biology (General)
Website: https://onlinelibrary.wiley.com/journal/25739832

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