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Kullmann 2022 JCI Insight

From Bioblast
Publications in the MiPMap
Kullmann S, Goj T, Veit R, Fritsche L, Wagner L, Schneeweiss P, Hoene M, Hoffmann C, Machann J, Niess A, Preissl H, Birkenfeld AL, Peter A, Häring HU, Fritsche A, Moller A, Weigert C, Heni M (2022) Exercise restores brain insulin sensitivity in sedentary adults who are overweight and obese.

» JCI Insight 7:e161498. PMID: 36134657 Open Access

Kullmann Stephanie, Goj Thomas, Veit Ralf, Fritsche Louise, Wagner Lore, Schneeweiss Patrick, Hoene Miriam, Hoffmann Christoph, Machann Juergen, Niess Andreas, Preissl Hubert, Birkenfeld Andreas L, Peter Andreas, Haering Hans-Ulrich, Fritsche Andreas, Moller Anja, Weigert Cora, Heni Martin (2022) JCI Insight

Abstract: Insulin resistance of the brain can unfavorably affect long-term weight maintenance and body fat distribution. Little is known if and how brain insulin sensitivity can be restored in humans. We aimed to evaluate the effects of an exercise intervention on insulin sensitivity of the brain and how this relates to exercise-induced changes in whole-body metabolism and behavior.

In this clinical trial, sedentary participants who were overweight and obese underwent an 8-week supervised aerobic training intervention. Brain insulin sensitivity was assessed in 21 participants (14 women, 7 men; age range 21-59 years; BMI range 27.5-45.5 kg/m2) using functional MRI, combined with intranasal administration of insulin, before and after the intervention.

The exercise program resulted in enhanced brain insulin action to the level of a person of healthy weight, demonstrated by increased insulin-induced striatal activity and strengthened hippocampal functional connectivity. Improved brain insulin action correlated with increased mitochondrial respiration in skeletal muscle, reductions in visceral fat and hunger, as well as improved cognition. Mediation analyses suggest that improved brain insulin responsiveness helps mediate the peripheral exercise effects leading to healthier body fat distribution and reduced perception of hunger.

Our study demonstrates that an 8-week exercise intervention in sedentary individuals can restore insulin action in the brain. Hence, the ameliorating benefits of exercise toward brain insulin resistance may provide an objective therapeutic target in humans in the challenge to reduce diabetes risk factors. Keywords: Adipose tissue, Insulin signaling, Metabolism, Neuroimaging, Neuroscience Bioblast editor: Plangger M O2k-Network Lab: DE Tuebingen Weigert C

Labels: MiParea: Respiration, Exercise physiology;nutrition;life style  Pathology: Obesity 

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