AI Article Synopsis
- Adipocyte lipolysis plays a crucial role in regulating overall energy levels and metabolic balance, primarily controlled by specific enzymes and their modifications.
- The study identifies IRF2BP2 as a transcriptional repressor that, when deleted, boosts lipolysis in human adipocytes without altering glucose uptake, while its overexpression has the opposite effect.
- The research further reveals that the deletion of IRF2BP2 in mice leads to increased lipolysis and inflammation in adipose tissue, suggesting potential strategies for targeting lipolysis in metabolic disease treatments.
Article Abstract
Adipocyte lipolysis controls systemic energy levels and metabolic homeostasis. Lipolysis is regulated by posttranslational modifications of key lipolytic enzymes. However, less is known about the transcriptional mechanisms that regulate lipolysis. Here, we identify interferon regulatory factor-2 binding protein 2 (IRF2BP2) as a transcriptional repressor of adipocyte lipolysis. Deletion of in human adipocytes increases lipolysis without affecting glucose uptake, whereas IRF2BP2 overexpression decreases lipolysis. RNA sequencing, and chromatin immunoprecipitation sequencing analyses show that IRF2BP2 represses lipolysis-related genes, including , which encodes hormone sensitive lipase, the rate-limiting enzyme in lipolysis. Adipocyte-selective deletion of in mice increases expression and free fatty acid levels, resulting in adipose tissue inflammation and glucose intolerance. Together, these findings demonstrate that IRF2BP2 restrains adipocyte lipolysis and opens avenues to target lipolysis for the treatment of metabolic disease.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11698119 | PMC |
| http://dx.doi.org/10.1126/sciadv.ads5963 | DOI Listing |
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- Adipocyte lipolysis plays a crucial role in regulating overall energy levels and metabolic balance, primarily controlled by specific enzymes and their modifications.
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- The research further reveals that the deletion of IRF2BP2 in mice leads to increased lipolysis and inflammation in adipose tissue, suggesting potential strategies for targeting lipolysis in metabolic disease treatments.
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