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The Futile Creatine Cycle powers UCP1-independent thermogenesis in classical BAT

Jakub Bunk, Mohammed F. Hussain, Maria Delgado-Martin, Bożena Samborska, Mina Ersin, Abhirup Shaw, Janane F. Rahbani, Lawrence Kazak

2025Nature Communications29 citationsDOIOpen Access PDF

Abstract

Classical brown adipose tissue (BAT) is traditionally viewed as relying exclusively on uncoupling protein 1 (UCP1) for thermogenesis via inducible proton leak. However, the physiological significance of UCP1-independent mechanisms linking substrate oxidation to ATP turnover in classical BAT has remained unclear. Here, we identify the Futile Creatine Cycle (FCC), a mitochondrial-localized energy-wasting pathway involving creatine phosphorylation by creatine kinase b (CKB) and phosphocreatine hydrolysis by tissue-nonspecific alkaline phosphatase (TNAP), as a key UCP1-independent thermogenic mechanism in classical BAT. Reintroducing mitochondrial-targeted CKB exclusively into interscapular brown adipocytes in vivo restores thermogenesis and cold tolerance in mice lacking native UCP1 and CKB, in a TNAP-dependent manner. Furthermore, mice with inducible adipocyte-specific co-deletion of TNAP and UCP1 exhibit severe cold-intolerance. These findings challenge the view that BAT thermogenesis depends solely on UCP1 because of insufficient ATP synthase activity and establishes the FCC as a physiologically relevant thermogenic pathway in classical BAT.

Topics & Concepts

ThermogenesisThermogeninBrown adipose tissueCreatinePhosphocreatineBiologyCreatine kinaseEndocrinologyInternal medicineAlkaline phosphataseBiochemistryChemistryCell biologyAdipose tissueEnzymeEnergy metabolismMedicineAdipose Tissue and MetabolismMuscle metabolism and nutritionExercise and Physiological Responses
The Futile Creatine Cycle powers UCP1-independent thermogenesis in classical BAT | Litcius