Loss of β-catenin reveals a role for glutathione in regulating oxidative stress during cholestatic liver disease

DOI

10.1097/HC9.0000000000000485

Authors

Oluwashanu Balogun, University of Pittsburgh School of Medicine
Daniel Shao, Case Western Reserve University
Matthew Carson, University of Pittsburgh School of Medicine
Thalia King, University of Pittsburgh School of Medicine
Karis Kosar, University of Pittsburgh School of Medicine
Rong Zhang, University of Pittsburgh School of Medicine
Gang Zeng, University of Pittsburgh School of Medicine
Pamela Cornuet, University of Pittsburgh School of Medicine
Chhavi Goel, University of Pittsburgh School of Medicine
Elizabeth Lee, University of Pittsburgh School of Medicine
Garima Patel, University of Pittsburgh School of Medicine
Eva Brooks, Duquesne University
Satdarshan P. Monga, University of Pittsburgh School of Medicine
Silvia Liu, University of Pittsburgh School of Medicine
Kari Nejak-Bowen, University of Pittsburgh School of Medicine

Document Type

Journal Article

Publication Date

7-5-2024

Publication Title

Hepatology Communications

Volume

8

Issue

7

Abstract

Background: Cholestasis is an intractable liver disorder that results from impaired bile flow. We have previously shown that the Wnt/β-catenin signaling pathway regulates the progression of cholestatic liver disease through multiple mechanisms, including bile acid metabolism and hepatocyte proliferation. To further explore the impact of these functions during intrahepatic cholestasis, we exposed mice to a xenobiotic that causes selective biliary injury. Methods: α-naphthylisothiocyanate (ANIT) was administered to liver-specific knockout (KO) of β-catenin and wild-type mice in the diet. Mice were killed at 6 or 14 days to assess the severity of cholestatic liver disease, measure the expression of target genes, and perform biochemical analyses. Results: We found that the presence of β-catenin was protective against ANIT, as KO mice had a significantly lower survival rate than wild-type mice. Although serum markers of liver damage and total bile acid levels were similar between KO and wild-type mice, the KO had minor histological abnormalities, such as sinusoidal dilatation, concentric fibrosis around ducts, and decreased inflammation. Notably, both total glutathione levels and expression of glutathione-S-transferases, which catalyze the conjugation of ANIT to glutathione, were significantly decreased in KO after ANIT. Nuclear factor erythroid-derived 2-like 2, a master regulator of the antioxidant response, was activated in KO after ANIT as well as in a subset of patients with primary sclerosing cholangitis lacking activated β-catenin. Despite the activation of nuclear factor erythroid-derived 2-like 2, KO livers had increased lipid peroxidation and cell death, which likely contributed to mortality. Conclusions: Loss of β-catenin leads to increased cellular injury and cell death during cholestasis through failure to neutralize oxidative stress, which may contribute to the pathology of this disease.

Open Access

Gold

Repository Citation

Balogun, O., Shao, D., Carson, M., King, T., Kosar, K., Zhang, R., Zeng, G., Cornuet, P., Goel, C., Lee, E., Patel, G., Brooks, E., Monga, S., Liu, S., & Nejak-Bowen, K. (2024). Loss of β-catenin reveals a role for glutathione in regulating oxidative stress during cholestatic liver disease. Hepatology Communications, 8 (7). https://doi.org/10.1097/HC9.0000000000000485