P2Y13 receptor deficiency favors adipose tissue lipolysis and worsens insulin resistance and fatty liver disease
Thibaut Duparc, … , Souad Najib, Laurent O. Martinez
Thibaut Duparc, … , Souad Najib, Laurent O. Martinez
Published March 12, 2024
Citation Information: JCI Insight. 2024;9(8):e175623. https://doi.org/10.1172/jci.insight.175623.
View: Text | PDF
Research Article Hepatology Metabolism

P2Y13 receptor deficiency favors adipose tissue lipolysis and worsens insulin resistance and fatty liver disease

Abstract

Excessive lipolysis in white adipose tissue (WAT) leads to insulin resistance (IR) and ectopic fat accumulation in insulin-sensitive tissues. However, the impact of Gi-coupled receptors in restraining adipocyte lipolysis through inhibition of cAMP production remained poorly elucidated. Given that the Gi-coupled P2Y13 receptor (P2Y13-R) is a purinergic receptor expressed in WAT, we investigated its role in adipocyte lipolysis and its effect on IR and metabolic dysfunction-associated steatotic liver disease (MASLD). In humans, mRNA expression of P2Y13-R in WAT was negatively correlated to adipocyte lipolysis. In mice, adipocytes lacking P2Y13-R displayed higher intracellular cAMP levels, indicating impaired Gi signaling. Consistently, the absence of P2Y13-R was linked to increased lipolysis in adipocytes and WAT explants via hormone-sensitive lipase activation. Metabolic studies indicated that mice lacking P2Y13-R showed a greater susceptibility to diet-induced IR, systemic inflammation, and MASLD compared with their wild-type counterparts. Assays conducted on precision-cut liver slices exposed to WAT conditioned medium and on liver-specific P2Y13-R–knockdown mice suggested that P2Y13-R activity in WAT protects from hepatic steatosis, independently of liver P2Y13-R expression. In conclusion, our findings support the idea that targeting adipose P2Y13-R activity may represent a pharmacological strategy to prevent obesity-associated disorders, including type 2 diabetes and MASLD.

Authors

Thibaut Duparc, Emilia Gore, Guillaume Combes, Diane Beuzelin, Julie Pires Da Silva, Vanessa Bouguetoch, Marie-Adeline Marquès, Ana Velazquez, Nathalie Viguerie, Geneviève Tavernier, Peter Arner, Mikael Rydén, Dominique Langin, Nabil Sioufi, Mohamad Nasser, Cendrine Cabou, Souad Najib, Laurent O. Martinez

×

Figure 8

Lack of P2Y13-R promotes steatosis and aggravates liver fibrosis.

Options: View larger image (or click on image) Download as PowerPoint
Lack of P2Y13-R promotes steatosis and aggravates liver fibrosis. (A) He...
(A) Hepatic concentrations of TG (n = 10 mice per group). (B) Representative H&E staining of liver sections (original magnification, 20×). Arrows indicate lipid droplets. (C) Hepatic concentrations of hydroxyproline (HYP) (n = 10 mice per group). (D) Representative Sirius red (SR) staining of liver sections (original magnification, 20×). Arrows indicate collagen fibers. (E) Quantification of SR-positive area in liver sections from D (n = 5 mice per group). Open blue and red circles represent WT and P2Y13-R–KO mice, respectively. All data are expressed as mean ± SEM. *P < 0.05, **P < 0.01, ***P < 0.001 (A and C, 1-way ANOVA followed by Bonferroni’s post hoc test was used for group comparison; E, 2-tailed unpaired Student’s t test was used for genotype comparison). Results were obtained from mice fed an HFSC diet for 16 weeks (16-w) or 40 weeks (40-w). HFSC, high-fat high-sucrose high-cholesterol; KO, knockout; TG, triglyceride; WT, wild-type.