Pancreatic Acinar Cell Fate Relies on System X to Prevent Ferroptosis During Stress

Overview

Journal Cell Death Dis

Specialties Cell Biology
General Medicine

Date 2023 Aug 21

PMID 37604805

Authors

Zhaolong Pan

Jan-Lars Van den Bossche

Eva Rodriguez-Aznar

Pauline Janssen

Olaya Lara

Gamze Ates

Ann Massie

Diedert Luc De Paep

Isabelle Houbracken

Marco Mambretti

Ilse Rooman

Affiliations

Soon will be listed here.

Abstract

Acinar cell dedifferentiation is one of the most notable features of acute and chronic pancreatitis. It can also be the initial step that facilitates pancreatic cancer development. In the present study, we further decipher the precise mechanisms and regulation using primary human cells and murine experimental models. Our RNAseq analysis indicates that, in both species, early acinar cell dedifferentiation is accompanied by multiple pathways related to cell survival that are highly enriched, and where SLC7A11 (xCT) is transiently upregulated. xCT is the specific subunit of the cystine/glutamate antiporter system x. To decipher its role, gene silencing, pharmacological inhibition and a knock-out mouse model were used. Acinar cells with depleted or reduced xCT function show an increase in ferroptosis relating to lipid peroxidation. Lower glutathione levels and more lipid ROS accumulation could be rescued by the antioxidant N-acetylcysteine or the ferroptosis inhibitor ferrostatin-1. In caerulein-induced acute pancreatitis in mice, xCT also prevents lipid peroxidation in acinar cells. In conclusion, during stress, acinar cell fate seems to be poised for avoiding several forms of cell death. xCT specifically prevents acinar cell ferroptosis by fueling the glutathione pool and maintaining ROS balance. The data suggest that xCT offers a druggable tipping point to steer the acinar cell fate in stress conditions.

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