Literature DB >> 26365180

Hepatic Bmal1 Regulates Rhythmic Mitochondrial Dynamics and Promotes Metabolic Fitness.

David Jacobi1, Sihao Liu1, Kristopher Burkewitz1, Nora Kory1, Nelson H Knudsen1, Ryan K Alexander1, Ugur Unluturk1, Xiaobo Li1, Xiaohui Kong1, Alexander L Hyde1, Matthew R Gangl1, William B Mair1, Chih-Hao Lee2.   

Abstract

Mitochondria undergo architectural/functional changes in response to metabolic inputs. How this process is regulated in physiological feeding/fasting states remains unclear. Here we show that mitochondrial dynamics (notably fission and mitophagy) and biogenesis are transcriptional targets of the circadian regulator Bmal1 in mouse liver and exhibit a metabolic rhythm in sync with diurnal bioenergetic demands. Bmal1 loss-of-function causes swollen mitochondria incapable of adapting to different nutrient conditions accompanied by diminished respiration and elevated oxidative stress. Consequently, liver-specific Bmal1 knockout (LBmal1KO) mice accumulate oxidative damage and develop hepatic insulin resistance. Restoration of hepatic Bmal1 activities in high-fat-fed mice improves metabolic outcomes, whereas expression of Fis1, a fission protein that promotes quality control, rescues morphological/metabolic defects of LBmal1KO mitochondria. Interestingly, Bmal1 homolog AHA-1 in C. elegans retains the ability to modulate oxidative metabolism and lifespan despite lacking circadian regulation. These results suggest clock genes are evolutionarily conserved energetics regulators.
Copyright © 2015 Elsevier Inc. All rights reserved.

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Year:  2015        PMID: 26365180      PMCID: PMC4598294          DOI: 10.1016/j.cmet.2015.08.006

Source DB:  PubMed          Journal:  Cell Metab        ISSN: 1550-4131            Impact factor:   27.287


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