par Gilglioni, Eduardo Hideo 
;Li, Ao ;St-Pierre-Wijckmans, Wadsen;Shen, Tzu-Keng ;Perez Chavez, Israel ;Hovhannisyan, Garnik ;Lisjak, Michela ;Negueruela Escudero, Javier ;Vandenbempt, Valerie ;Bauzá-Martinez, Julia;Herranz, José Maria;Ezeriņa, Daria;Demine, Stéphane ;Feng, Zheng;Vignane, Thibaut;Otero Sanchez, Lukas ;Lambertucci, Flavia ;Prašnická, Alena;Devière, Jacques ;Hay, David C;Encinar, José Antonio;Singh, Sumeet Pal ;Messens, Joris;Filipovic, Milos R;Sharpe, Hayley J;Trepo, Eric ;Wu, Wei;Gurzov, Esteban Nicolas
Référence Nature communications, 15, 1, page (9522)
Publication Publié, 2024-11-01
;Li, Ao ;St-Pierre-Wijckmans, Wadsen;Shen, Tzu-Keng ;Perez Chavez, Israel ;Hovhannisyan, Garnik ;Lisjak, Michela ;Negueruela Escudero, Javier ;Vandenbempt, Valerie ;Bauzá-Martinez, Julia;Herranz, José Maria;Ezeriņa, Daria;Demine, Stéphane ;Feng, Zheng;Vignane, Thibaut;Otero Sanchez, Lukas ;Lambertucci, Flavia ;Prašnická, Alena;Devière, Jacques ;Hay, David C;Encinar, José Antonio;Singh, Sumeet Pal ;Messens, Joris;Filipovic, Milos R;Sharpe, Hayley J;Trepo, Eric ;Wu, Wei;Gurzov, Esteban Nicolas Référence Nature communications, 15, 1, page (9522)
Publication Publié, 2024-11-01
Article révisé par les pairs
| Résumé : | Fat accumulation, de novo lipogenesis, and glycolysis are key drivers of hepatocyte reprogramming and the consequent metabolic dysfunction-associated steatotic liver disease (MASLD). Here we report that obesity leads to dysregulated expression of hepatic protein-tyrosine phosphatases (PTPs). PTPRK was found to be increased in steatotic hepatocytes in both humans and mice, and correlates positively with PPARγ-induced lipogenic signaling. High-fat-fed PTPRK knockout male and female mice have lower weight gain and reduced hepatic fat accumulation. Phosphoproteomic analysis in primary hepatocytes and hepatic metabolomics identified fructose-1,6-bisphosphatase 1 and glycolysis as PTPRK targets in metabolic reprogramming. Mechanistically, PTPRK-induced glycolysis enhances PPARγ and lipogenesis in hepatocytes. Silencing PTPRK in liver cancer cell lines reduces colony-forming capacity and high-fat-fed PTPRK knockout mice exposed to a hepatic carcinogen develop smaller tumours. Our study defines the role of PTPRK in the regulation of hepatic glycolysis, lipid metabolism, and tumour development in obesity. |
