Kinase-independent functions of RIPK1 regulate hepatocyte survival and liver carcinogenesis
Trieu-My Van, … , Nikoletta Papadopoulou, Manolis Pasparakis
Trieu-My Van, … , Nikoletta Papadopoulou, Manolis Pasparakis
Published June 19, 2017
Citation Information: J Clin Invest. 2017;127(7):2662-2677. https://doi.org/10.1172/JCI92508.
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Research Article Hepatology Inflammation

Kinase-independent functions of RIPK1 regulate hepatocyte survival and liver carcinogenesis

Abstract

The mechanisms that regulate cell death and inflammation play an important role in liver disease and cancer. Receptor-interacting protein kinase 1 (RIPK1) induces apoptosis and necroptosis via kinase-dependent mechanisms and exhibits kinase-independent prosurvival and proinflammatory functions. Here, we have used genetic mouse models to study the role of RIPK1 in liver homeostasis, injury, and cancer. While ablating either RIPK1 or RelA in liver parenchymal cells (LPCs) did not cause spontaneous liver pathology, mice with combined deficiency of RIPK1 and RelA in LPCs showed increased hepatocyte apoptosis and developed spontaneous chronic liver disease and cancer that were independent of TNF receptor 1 (TNFR1) signaling. In contrast, mice with LPC-specific knockout of Ripk1 showed reduced diethylnitrosamine-induced (DEN-induced) liver tumorigenesis that correlated with increased DEN-induced hepatocyte apoptosis. Lack of RIPK1 kinase activity did not inhibit DEN-induced liver tumor formation, showing that kinase-independent functions of RIPK1 promote DEN-induced hepatocarcinogenesis. Moreover, mice lacking both RIPK1 and TNFR1 in LPCs displayed normal tumor formation in response to DEN, demonstrating that RIPK1 deficiency decreases DEN-induced liver tumor formation in a TNFR1-dependent manner. Therefore, these findings indicate that RIPK1 cooperates with NF-κB signaling to prevent TNFR1-independent hepatocyte apoptosis and the development of chronic liver disease and cancer, but acts downstream of TNFR1 signaling to promote DEN-induced liver tumorigenesis.

Authors

Trieu-My Van, Apostolos Polykratis, Beate Katharina Straub, Vangelis Kondylis, Nikoletta Papadopoulou, Manolis Pasparakis

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Figure 4

RIPK1 kinase activity does not regulate DEN-induced liver tumorigenesis.

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RIPK1 kinase activity does not regulate DEN-induced liver tumorigenesis....
(A) Immunoblot analysis for RIPK1 in liver lysates of 9-week-old Ripk1fl/D138N and RIPK1LPC-KO/D138N mice (n = 3 per genotype). (B) BW curve of DEN-injected Ripk1fl/D138N and RIPK1LPC-KO/D138N mice starting from DEN injection until the age of 36 weeks. Mean ± SEM. (C) Graph depicting serum ALT levels of 36-week-old Ripk1fl/D138N and RIPK1LPC-KO/D138N mice upon DEN injection. (D) Representative photographs of livers and H&E-stained liver sections from DEN-injected Ripk1fl/D138N and RIPK1LPC-KO/D138N mice at the age of 36 weeks. Scale bars: 1 cm (left panels); 100 μm (right panels). HCC/dysplastic nodule areas are marked with an asterisk. (E) Tumor load in 36-week-old Ripk1fl/D138N and RIPK1LPC-KO/D138N mice as estimated by quantification of the tumor size distribution. (F) Graphs depicting the number of tumors per liver. (G) Histopathological evaluation of HCC development in 36-week-old Ripk1fl/D138N and RIPK1LPC-KO/D138N mice. Each color bar represents the percentage of livers per genotype in which the indicated stage was identified as the most advanced disease stage (n = 16–17 per genotype). (HJ) Liver weight/BW ratio (H), grade of steatosis (I), and grade of inflammation (J) in 36-week-old mice injected with DEN.