AI Article Synopsis
- Insulin resistance is a condition related to metabolic syndrome, caused by disrupted insulin response in cellular processes.
- Insulin boosts the activity of the nuclear receptor ERRα through a specific signaling pathway involving GSK3β and FBXW7.
- Disruption of this pathway leads to ERRα proteins that do not adapt to insulin changes, causing altered liver and muscle gene expression, which worsens insulin sensitivity even with better mitochondrial function.
Article Abstract
Insulin resistance, a harbinger of the metabolic syndrome, is a state of compromised hormonal response resulting from the dysregulation of a wide range of insulin-controlled cellular processes. However, how insulin affects cellular energy metabolism via long-term transcriptional regulation and whether boosting mitochondrial function alleviates insulin resistance remains to be elucidated. Herein we reveal that insulin directly enhances the activity of the nuclear receptor ERRα via a GSK3β/FBXW7 signaling axis. Liver-specific deletion of GSK3β or FBXW7 and mice harboring mutations of ERRα phosphosites (ERRα) co-targeted by GSK3β/FBXW7 result in accumulated ERRα proteins that no longer respond to fluctuating insulin levels. ERRα mice display reprogrammed liver and muscle transcriptomes, resulting in compromised energy homeostasis and reduced insulin sensitivity despite improved mitochondrial function. This crossroad of insulin signaling and transcriptional control by a nuclear receptor offers a framework to better understand the complex cellular processes contributing to the development of insulin resistance.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC9019090 | PMC |
| http://dx.doi.org/10.1038/s41467-022-29722-6 | DOI Listing |
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