The most abundant cellular divalent cations, Mg (mM) and Ca (nM-μM), antagonistically regulate divergent metabolic pathways with several orders of magnitude affinity preference, but the physiological significance of this competition remains elusive. In mice consuming a Western diet, genetic ablation of the mitochondrial Mg channel Mrs2 prevents weight gain, enhances mitochondrial activity, decreases fat accumulation in the liver, and causes prominent browning of white adipose. Mrs2 deficiency restrains citrate efflux from the mitochondria, making it unavailable to support de novo lipogenesis. As citrate is an endogenous Mg chelator, this may represent an adaptive response to a perceived deficit of the cation. Transcriptional profiling of liver and white adipose reveals higher expression of genes involved in glycolysis, β-oxidation, thermogenesis, and HIF-1α-targets, in Mrs2 mice that are further enhanced under Western-diet-associated metabolic stress. Thus, lowering Mg promotes metabolism and dampens diet-induced obesity and metabolic syndrome.
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| http://dx.doi.org/10.1016/j.celrep.2023.112155 | DOI Listing |
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