Loss of α-catenin Elicits a Cholestatic Response and Impairs Liver Regeneration

Overview

Journal Sci Rep

Specialty Science

Date 2014 Oct 31

PMID 25355493

Citations 24

Authors

Keira Joann Herr

Ying-hung Nicole Tsang

Joanne Wei En Ong

Qiushi Li

Lai Lai Yap

Weimiao Yu

Hao Yin

Roman L Bogorad

James E Dahlman

Yee Gek Chan

Boon Huat Bay

Roshni Singaraja

Daniel G Anderson

Victor Koteliansky

Virgile Viasnoff

Jean Paul Thiery

Affiliations

Soon will be listed here.

Abstract

The liver is unique in its capacity to regenerate after injury, during which hepatocytes actively divide and establish cell-cell contacts through cell adhesion complexes. Here, we demonstrate that the loss of α-catenin, a well-established adhesion component, dramatically disrupts liver regeneration. Using a partial hepatectomy model, we show that regenerated livers from α-catenin knockdown mice are grossly larger than control regenerated livers, with an increase in cell size and proliferation. This increased proliferation correlated with increased YAP activation, implicating α-catenin in the Hippo/YAP pathway. Additionally, α-catenin knockdown mice exhibited a phenotype reminiscent of clinical cholestasis, with drastically altered bile canaliculi, elevated levels of bile components and signs of jaundice and inflammation. The disrupted regenerative capacity is a result of actin cytoskeletal disorganisation, leading to a loss of apical microvilli, dilated lumens in the bile canaliculi, and leaky tight junctions. This study illuminates a novel, essential role for α-catenin in liver regeneration.

Citing Articles

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