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  • Combinatorial regulation of hepatic cytoplasmic signaling and nuclear transcriptional events by the OGT/REV-ERBα complex.

Combinatorial regulation of hepatic cytoplasmic signaling and nuclear transcriptional events by the OGT/REV-ERBα complex.

Proceedings of the National Academy of Sciences of the United States of America (2018-11-07)
Alexandre Berthier, Manjula Vinod, Geoffrey Porez, Agata Steenackers, Jérémy Alexandre, Nao Yamakawa, Céline Gheeraert, Maheul Ploton, Xavier Maréchal, Julie Dubois-Chevalier, Agnès Hovasse, Christine Schaeffer-Reiss, Sarah Cianférani, Christian Rolando, Fabrice Bray, Hélène Duez, Jérôme Eeckhoute, Tony Lefebvre, Bart Staels, Philippe Lefebvre
ABSTRACT

The nuclear receptor REV-ERBα integrates the circadian clock with hepatic glucose and lipid metabolism by nucleating transcriptional comodulators at genomic regulatory regions. An interactomic approach identified O-GlcNAc transferase (OGT) as a REV-ERBα-interacting protein. By shielding cytoplasmic OGT from proteasomal degradation and favoring OGT activity in the nucleus, REV-ERBα cyclically increased O-GlcNAcylation of multiple cytoplasmic and nuclear proteins as a function of its rhythmically regulated expression, while REV-ERBα ligands mostly affected cytoplasmic OGT activity. We illustrate this finding by showing that REV-ERBα controls OGT-dependent activities of the cytoplasmic protein kinase AKT, an essential relay in insulin signaling, and of ten-of-eleven translocation (TET) enzymes in the nucleus. AKT phosphorylation was inversely correlated to REV-ERBα expression. REV-ERBα enhanced TET activity and DNA hydroxymethylated cytosine (5hmC) levels in the vicinity of REV-ERBα genomic binding sites. As an example, we show that the REV-ERBα/OGT complex modulates SREBP-1c gene expression throughout the fasting/feeding periods by first repressing AKT phosphorylation and by epigenomically priming the Srebf1 promoter for a further rapid response to insulin. Conclusion: REV-ERBα regulates cytoplasmic and nuclear OGT-controlled processes that integrate at the hepatic SREBF1 locus to control basal and insulin-induced expression of the temporally and nutritionally regulated lipogenic SREBP-1c transcript.

MATERIALS
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Sigma-Aldrich
Anti-O-GlcNAc Transferase (TI-14) antibody produced in rabbit, IgG fraction of antiserum, buffered aqueous solution