Mol Metab. 2025 Sep 12. pii: S2212-8778(25)00156-5. [Epub ahead of print] 102249
Ivan Vlassakev,
Christina Savva,
Gianluca Renzi,
Hema S Ilamathi,
Doste R Mamand,
Jacob G Smith,
Carolina M Greco,
Christopher Litwin,
Qing Zhang,
Leandro Velez,
Angela Ma,
Martin O Bergo,
Oscar P B Wiklander,
Pura Muñoz-Cánovez,
Niklas Mejhert,
Marcus Seldin,
Johan L M Björkegren,
Paolo Sassone-Corsi,
Kevin B Koronowski,
Salvador Aznar Benitah,
Paul Petrus.
Circadian rhythms are integral to maintaining metabolic health by temporally coordinating physiology across tissues. However, the mechanisms underlying circadian cross-tissue coordination remain poorly understood. In this study, we uncover a central role for the liver clock in regulating circadian rhythms in white adipose tissue (WAT). Using a hepatocyte-specific Bmal1 knockout mouse model, we show that hepatic circadian control modulates lipid metabolism in WAT. In addition, by utilizing a model where functional clocks are restricted to the hepatocytes, we demonstrate that the liver clock alone integrates feeding cues to modulate circadian gene expression in WAT, including Cebpa, a key regulator of adipogenesis. We show that the hepatocyte clock regulates adipocyte Cebpa rhythmicity through secreted proteins. Further investigation identified one of the contributing mediators to be the adaptor protein 14-3-3η (Ywhah). The clinical relevance of the liver clock for systemic metabolic function is supported by human cohort data, which revealed a gene regulatory network, consisting of several clock-controlled liver genes, linked to cardiometabolic risk. These findings provide evidence for how the hepatocyte clock coordinates WAT physiology and highlights the core clock system as a potential therapeutic target to improve cardiometabolic health.
Keywords: Cardiometabolic disease; Circadian rhythms; Cross-tissue communication; Lipid metabolism