Literature DB >> 33981039

Mitochondrial TNAP controls thermogenesis by hydrolysis of phosphocreatine.

Yizhi Sun1,2, Janane F Rahbani3,4, Mark P Jedrychowski1,2, Christopher L Riley1,2, Sara Vidoni1,2, Dina Bogoslavski1, Bo Hu1,2, Phillip A Dumesic1,2, Xing Zeng1,2, Alex B Wang1,2, Nelson H Knudsen1,2, Caroline R Kim1, Anthony Marasciullo1, José L Millán5, Edward T Chouchani1,2, Lawrence Kazak3,4, Bruce M Spiegelman6,7.   

Abstract

Adaptive thermogenesis has attracted much attention because of its ability to increase systemic energy expenditure and to counter obesity and diabetes1-3. Recent data have indicated that thermogenic fat cells use creatine to stimulate futile substrate cycling, dissipating chemical energy as heat4,5. This model was based on the super-stoichiometric relationship between the amount of creatine added to mitochondria and the quantity of oxygen consumed. Here we provide direct evidence for the molecular basis of this futile creatine cycling activity in mice. Thermogenic fat cells have robust phosphocreatine phosphatase activity, which is attributed to tissue-nonspecific alkaline phosphatase (TNAP). TNAP hydrolyses phosphocreatine to initiate a futile cycle of creatine dephosphorylation and phosphorylation. Unlike in other cells, TNAP in thermogenic fat cells is localized to the mitochondria, where futile creatine cycling occurs. TNAP expression is powerfully induced when mice are exposed to cold conditions, and its inhibition in isolated mitochondria leads to a loss of futile creatine cycling. In addition, genetic ablation of TNAP in adipocytes reduces whole-body energy expenditure and leads to rapid-onset obesity in mice, with no change in movement or feeding behaviour. These data illustrate the critical role of TNAP as a phosphocreatine phosphatase in the futile creatine cycle.

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Year:  2021        PMID: 33981039      PMCID: PMC8287965          DOI: 10.1038/s41586-021-03533-z

Source DB:  PubMed          Journal:  Nature        ISSN: 0028-0836            Impact factor:   49.962


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