Litcius/Paper detail

Ctnnb1/β-catenin inactivation in UCP1-positive adipocytes augments the browning of white adipose tissue

Na Chen, Mingyang Yuan, Ningning Zhang, Maopei Chen, Ruixin Liu, Jiqiu Wang, Peng Lu

2023iScience10 citationsDOIOpen Access PDF

Abstract

Canonical WNT pathway in mature adipocytes exacerbates obesity. In this study, we constructed UCP1-positive adipocytes-specific Ctnnb1 knockout mice (UBKO) and observed increased "browning" of white adipose tissue (WAT) following cold exposure or CL-316,243 administration compared to controls. UBKO mice also displayed increased energy expenditure. Furthermore, β-catenin (encoded by Ctnnb1 ) inhibited thermogenic genes expression in differentiated beige adipocytes and repressed Ucp1 expression at transcription level. Transcriptome analysis revealed UBKO mice treated with CL-316,243 had enhanced mitochondrial function and downregulated immune-related genes in epididymal WAT. Improved glucose tolerance and insulin sensitivity were observed in 50-week-old UBKO mice. Public datasets indicated that CTNNB1 expression was inversely correlated with several thermogenic genes expression in human adipose tissue/adipocytes and positively correlated with BMI or waist-hip ratio (WHR). We proposed that intervention of β-catenin in adipocytes could be an effective strategy to enhance energy expenditure and improve age-related metabolic performance.

Topics & Concepts

Adipose tissueInternal medicineEndocrinologyWhite adipose tissueWnt signaling pathwayBrowningTranscriptomeThermogeninBiologyInsulin resistanceChemistryGene expressionCell biologyInsulinGeneMedicineSignal transductionBiochemistryAdipose Tissue and MetabolismAdipokines, Inflammation, and Metabolic DiseasesCardiovascular Disease and Adiposity