A Fbxo48 inhibitor prevents pAMPKα degradation and ameliorates insulin resistance

The adenosine monophosphate (AMP)-activated protein kinase (Ampk) is a central regulator of metabolic pathways, and increasing Ampk activity has been considered to be an attractive therapeutic target. Here, we have identified an orphan ubiquitin E3 ligase subunit protein, Fbxo48, that targets the ac...

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Veröffentlicht in:Nature chemical biology 2021-03, Vol.17 (3), p.298-306
Hauptverfasser: Liu, Yuan, Jurczak, Michael J., Lear, Travis B., Lin, Bo, Larsen, Mads B., Kennerdell, Jason R., Chen, Yanwen, Huckestein, Brydie R., Nguyen, Matthew K., Tuncer, Ferhan, Jiang, Yu, Monga, Satdarshan P., O’Donnell, Christopher P., Finkel, Toren, Chen, Bill B., Mallampalli, Rama K.
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Sprache:eng
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AMP
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Zusammenfassung:The adenosine monophosphate (AMP)-activated protein kinase (Ampk) is a central regulator of metabolic pathways, and increasing Ampk activity has been considered to be an attractive therapeutic target. Here, we have identified an orphan ubiquitin E3 ligase subunit protein, Fbxo48, that targets the active, phosphorylated Ampkα (pAmpkα) for polyubiquitylation and proteasomal degradation. We have generated a novel Fbxo48 inhibitory compound, BC1618, whose potency in stimulating Ampk-dependent signaling greatly exceeds 5-aminoimidazole-4-carboxamide-1-β-ribofuranoside (AICAR) or metformin. This compound increases the biological activity of Ampk not by stimulating the activation of Ampk, but rather by preventing activated pAmpkα from Fbxo48-mediated degradation. We demonstrate that, consistent with augmenting Ampk activity, BC1618 promotes mitochondrial fission, facilitates autophagy and improves hepatic insulin sensitivity in high-fat-diet-induced obese mice. Hence, we provide a unique bioactive compound that inhibits pAmpkα disposal. Together, these results define a new pathway regulating Ampk biological activity and demonstrate the potential utility of modulating this pathway for therapeutic benefit. E3 ligase subunit protein Fbxo48 interacts with phosphorylated Ampkα and mediates its proteasomal degradation. Interruption of the pAmpkα/Fbxo48 interaction by a small-molecule BC1618 promoted Ampkα activation and improved insulin sensitivity.
ISSN:1552-4450
1552-4469
DOI:10.1038/s41589-020-00723-0