BAM15‐mediated mitochondrial uncoupling protects against obesity and improves glycemic control

Christopher L Axelrod; William T King; Gangarao Davuluri; Robert C Noland; Jacob Hall; Michaela Hull; Wagner S Dantas; Elizabeth RM Zunica; Stephanie J Alexopoulos; Kyle L Hoehn; Ingeborg Langohr; Krisztian Stadler; Haylee Doyle; Eva Schmidt; Stephan Nieuwoudt; Kelly Fitzgerald; Kathryn Pergola; Hisashi Fujioka; Jacob T Mey; Ciaran Fealy; Anny Mulya; Robbie Beyl; Charles L Hoppel; John P Kirwan

doi:10.15252/emmm.202012088

EMBO Molecular Medicine (Jul 2020)

BAM15‐mediated mitochondrial uncoupling protects against obesity and improves glycemic control

Christopher L Axelrod,
William T King,
Gangarao Davuluri,
Robert C Noland,
Jacob Hall,
Michaela Hull,
Wagner S Dantas,
Elizabeth RM Zunica,
Stephanie J Alexopoulos,
Kyle L Hoehn,
Ingeborg Langohr,
Krisztian Stadler,
Haylee Doyle,
Eva Schmidt,
Stephan Nieuwoudt,
Kelly Fitzgerald,
Kathryn Pergola,
Hisashi Fujioka,
Jacob T Mey,
Ciaran Fealy,
Anny Mulya,
Robbie Beyl,
Charles L Hoppel,
John P Kirwan

Affiliations

Christopher L Axelrod: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
William T King: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Gangarao Davuluri: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Robert C Noland: Skeletal Muscle Metabolism Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Jacob Hall: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Michaela Hull: Department of Inflammation and Immunity Lerner Research Institute Cleveland Clinic Cleveland OH USA
Wagner S Dantas: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Elizabeth RM Zunica: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Stephanie J Alexopoulos: School of Biotechnology and Biomolecular Sciences University of New South Wales Sydney NSW Australia
Kyle L Hoehn: School of Biotechnology and Biomolecular Sciences University of New South Wales Sydney NSW Australia
Ingeborg Langohr: Department of Pathobiological Sciences Louisiana State University Baton Rouge LA USA
Krisztian Stadler: Oxidative Stress and Disease Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Haylee Doyle: Oxidative Stress and Disease Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Eva Schmidt: Oxidative Stress and Disease Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Stephan Nieuwoudt: Department of Inflammation and Immunity Lerner Research Institute Cleveland Clinic Cleveland OH USA
Kelly Fitzgerald: Department of Inflammation and Immunity Lerner Research Institute Cleveland Clinic Cleveland OH USA
Kathryn Pergola: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Hisashi Fujioka: Cryo‐Electron Microscopy Core Case Western Reserve University Cleveland OH USA
Jacob T Mey: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
Ciaran Fealy: Department of Inflammation and Immunity Lerner Research Institute Cleveland Clinic Cleveland OH USA
Anny Mulya: Department of Inflammation and Immunity Lerner Research Institute Cleveland Clinic Cleveland OH USA
Robbie Beyl: Department of Biostatistics Pennington Biomedical Research Center Baton Rouge LA USA
Charles L Hoppel: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA
John P Kirwan: Integrated Physiology and Molecular Medicine Laboratory Pennington Biomedical Research Center Baton Rouge LA USA

DOI: https://doi.org/10.15252/emmm.202012088
Journal volume & issue: Vol. 12, no. 7
pp. n/a – n/a

Abstract

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Abstract Obesity is a leading cause of preventable death worldwide. Despite this, current strategies for the treatment of obesity remain ineffective at achieving long‐term weight control. This is due, in part, to difficulties in identifying tolerable and efficacious small molecules or biologics capable of regulating systemic nutrient homeostasis. Here, we demonstrate that BAM15, a mitochondrially targeted small molecule protonophore, stimulates energy expenditure and glucose and lipid metabolism to protect against diet‐induced obesity. Exposure to BAM15 in vitro enhanced mitochondrial respiratory kinetics, improved insulin action, and stimulated nutrient uptake by sustained activation of AMPK. C57BL/6J mice treated with BAM15 were resistant to weight gain. Furthermore, BAM15‐treated mice exhibited improved body composition and glycemic control independent of weight loss, effects attributable to drug targeting of lipid‐rich tissues. We provide the first phenotypic characterization and demonstration of pre‐clinical efficacy for BAM15 as a pharmacological approach for the treatment of obesity and related diseases.

Published in EMBO Molecular Medicine

ISSN: 1757-4676 (Print); 1757-4684 (Online)
Publisher: Springer Nature
Country of publisher: United Kingdom
LCC subjects: Medicine: Medicine (General); Science: Biology (General): Genetics
Website: https://www.embopress.org/journal/17574684

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Abstract

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