GDF15 Provides an Endocrine Signal of Nutritional Stress in Mice and Humans

Satish Patel; Anna Álvarez-Guaita; Audrey Melvin; Debra Rimmington; Alessia Dattilo; Emily L. Miedzybrodzka; Irène Cimino; Anne‐Catherine Maurin; Geoffrey Roberts; Claire L. Meek; Sam Virtue; Lauren M. Sparks; Stephanie A. Parsons; Leanne M. Redman; George A. Bray; Alice P. Liou; Rachel Woods; Siôn Parry; Per Bendix Jeppesen; Anders J. Kolnes; Heather P. Harding; David Ron; Antonio Vidal‐Puig; Frank Reimann; Fiona M. Gribble; Carl J. Hulston; I. Sadaf Farooqi; Pierre Fafournoux; Steven R. Smith; Jorgen Jensen; Danna M. Breen; Zhidan Wu; Bei B. Zhang; Anthony P. Coll; David B. Savage; Stephen O’Rahilly

doi:10.1016/j.cmet.2018.12.016

GDF15 Provides an Endocrine Signal of Nutritional Stress in Mice and Humans

Satish Patel(University of Cambridge), Anna Álvarez-Guaita(University of Cambridge), Audrey Melvin(University of Cambridge), Debra Rimmington(University of Cambridge), Alessia Dattilo(University of Cambridge), Emily L. Miedzybrodzka(University of Cambridge), Irène Cimino(University of Cambridge), Anne‐Catherine Maurin(Université Clermont Auvergne), Geoffrey Roberts(University of Cambridge), Claire L. Meek(University of Cambridge), Sam Virtue(University of Cambridge), Lauren M. Sparks(Translational Research Institute for Metabolism and Diabetes), Stephanie A. Parsons(Translational Research Institute for Metabolism and Diabetes), Leanne M. Redman(Pennington Biomedical Research Center), George A. Bray(Pennington Biomedical Research Center), Alice P. Liou(Pfizer (United States)), Rachel Woods(Loughborough University), Siôn Parry(Loughborough University), Per Bendix Jeppesen(Aarhus University Hospital), Anders J. Kolnes(Oslo University Hospital), Heather P. Harding(University of Cambridge), David Ron(University of Cambridge), Antonio Vidal‐Puig(University of Cambridge), Frank Reimann(University of Cambridge), Fiona M. Gribble(University of Cambridge), Carl J. Hulston(Loughborough University), I. Sadaf Farooqi(University of Cambridge), Pierre Fafournoux(Université Clermont Auvergne), Steven R. Smith(Translational Research Institute for Metabolism and Diabetes), Jorgen Jensen(Norwegian School of Sport Sciences), Danna M. Breen(Pfizer (United States)), Zhidan Wu(Pfizer (United States)), Bei B. Zhang(Pfizer (United States)), Anthony P. Coll(University of Cambridge), David B. Savage(University of Cambridge), Stephen O’Rahilly(University of Cambridge)

Cell Metabolism

January 10, 2019

10.1016/j.cmet.2018.12.016

Cited by 493Open Access

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Abstract

GDF15 is an established biomarker of cellular stress. The fact that it signals via a specific hindbrain receptor, GFRAL, and that mice lacking GDF15 manifest diet-induced obesity suggest that GDF15 may play a physiological role in energy balance. We performed experiments in humans, mice, and cells to determine if and how nutritional perturbations modify GDF15 expression. Circulating GDF15 levels manifest very modest changes in response to moderate caloric surpluses or deficits in mice or humans, differentiating it from classical intestinally derived satiety hormones and leptin. However, GDF15 levels do increase following sustained high-fat feeding or dietary amino acid imbalance in mice. We demonstrate that GDF15 expression is regulated by the integrated stress response and is induced in selected tissues in mice in these settings. Finally, we show that pharmacological GDF15 administration to mice can trigger conditioned taste aversion, suggesting that GDF15 may induce an aversive response to nutritional stress.

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