Angiocrine Hepatocyte Growth Factor Signaling Controls Physiological Organ and Body Size and Dynamic Hepatocyte Proliferation to Prevent Liver Damage During Regeneration

Overview

Journal Am J Pathol

Publisher Elsevier

Specialty Pathology

Date 2019 Nov 30

PMID 31783007

Citations 16

Authors

Xue-Jun Zhang

Victor Olsavszky

Yuhan Yin

Baocai Wang

Thomas Engleitner

Rupert Ollinger

Kai Schledzewski

Philipp-Sebastian Koch

Roland Rad

Roland M Schmid

Helmut Friess

Sergij Goerdt

Norbert Huser

Cyrill Geraud

Guido von Figura

Daniel Hartmann

Affiliations

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Abstract

Liver sinusoidal endothelial cells (LSECs) control organ functions, metabolism, and development through the secretion of angiokines. LSECs express hepatocyte growth factor (Hgf), which is involved in prenatal development, metabolic homeostasis, and liver regeneration. This study aimed to elucidate the precise contribution of LSEC-derived Hgf in physiological homeostasis and liver regeneration. Stab2-iCre;Hgf (Hgf) mice were generated to abrogate Hgf expression selectively in LSECs from early fetal development onwards, to study global development, metabolic and endothelial zonation, and organ functions as well as liver regeneration in response to 70% partial hepatectomy (PH). Although zonation and liver/body weight ratios were not altered, total body weight and total liver weight were reduced in Hgf. Necrotic organ damage was more marked in Hgf mice, and regeneration was delayed 72 hours after PH. This was associated with decreased hepatocyte proliferation at 48 hours after PH. Molecularly, Hgf mice showed down-regulation of Hgf/c-Met signaling and decreased expression of Deptor in hepatocytes. In vitro knockdown of Deptor was associated with decreased proliferation. Therefore, angiocrine Hgf controls hepatocyte proliferation and susceptibility to necrosis after partial hepatectomy via the Hgf/c-Met axis involving Deptor to prevent excessive organ damage.

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