KSR2 Mutations Are Associated with Obesity, Insulin Resistance, and Impaired Cellular Fuel Oxidation | Zendy

Laura R. Pearce | Zendy; Neli Atanassova | Zendy; Matthew C. Banton | Zendy; Bill Bottomley | Zendy; Agatha A. van der Klaauw | Zendy; JeanPierre Revelli | Zendy; Audrey E. Hendricks | Zendy; Julia M. Keogh | Zendy; Elana Henning | Zendy; Deon Doree | Zendy; Sabrina JeterJones | Zendy; Sumedha Garg | Zendy; Elena G. Bochukova | Zendy; Rebecca Bounds | Zendy; Sofie Ashford | Zendy; Emma L. Gayton | Zendy; Peter C. Hindmarsh | Zendy; Julian HamiltonShield | Zendy; Elizabeth Crowne | Zendy; David Barford | Zendy; Nicholas J. Wareham | Zendy; Stephen O’Rahilly | Zendy; Michael P. Murphy | Zendy; David R. Powell | Zendy; Inês Barroso | Zendy; I. Sadaf Farooqi | Zendy

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KSR2 Mutations Are Associated with Obesity, Insulin Resistance, and Impaired Cellular Fuel Oxidation

Author(s) -

Laura R. Pearce,

Neli Atanassova,

Matthew C. Banton,

Bill Bottomley,

Agatha A. van der Klaauw,

JeanPierre Revelli,

Audrey E. Hendricks,

Julia M. Keogh,

Elana Henning,

Deon Doree,

Sabrina JeterJones,

Sumedha Garg,

Elena G. Bochukova,

Rebecca Bounds,

Sofie Ashford,

Emma L. Gayton,

Peter C. Hindmarsh,

Julian HamiltonShield,

Elizabeth Crowne,

David Barford,

Nicholas J. Wareham,

Stephen O’Rahilly,

Michael P. Murphy,

David R. Powell,

Inês Barroso,

I. Sadaf Farooqi

Publication year - 2013

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2013.09.058

Subject(s) - biology , insulin resistance , obesity , insulin , mutation , genetics , endocrinology , medicine , gene

Kinase suppressor of Ras 2 (KSR2) is an intracellular scaffolding protein involved in multiple signaling pathways. Targeted deletion of Ksr2 leads to obesity in mice, suggesting a role in energy homeostasis. We explored the role of KSR2 in humans by sequencing 2,101 individuals with severe early-onset obesity and 1,536 controls. We identified multiple rare variants in KSR2 that disrupt signaling through the Raf-MEKERK pathway and impair cellular fatty acid oxidation and glucose oxidation in transfected cells; effects that can be ameliorated by the commonly prescribed antidiabetic drug, metformin. Mutation carriers exhibit hyperphagia in childhood, low heart rate, reduced basal metabolic rate and severe insulin resistance. These data establish KSR2 as an important regulator of energy intake, energy expenditure, and substrate utilization in humans. Modulation of KSR2-mediated effects may represent a novel therapeutic strategy for obesity and type 2 diabetes.

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