Title

The Loss of ATRX Increases Susceptibility to Pancreatic Injury and Oncogenic KRAS in Female But Not Male Mice.

Authors

Claire C Young, Western University
Ryan M Baker, Western University
Christopher J Howlett, Western University
Todd Hryciw, Western University
Joshua E Herman, Robarts Research Institute
Douglas Higgs
Richard Gibbons
Howard Crawford
Arthur Brown, Childrens Health Research Institute
Christopher L Pin, Western University

Document Type

Article

Publication Date

2019

Journal

Cellular and Molecular Gastroenterology and Hepatology

Volume

7

Issue

1

First Page

93

Last Page

113

URL with Digital Object Identifier

https://doi.org/10.1016/j.jcmgh.2018.09.004

Abstract

Background

Pancreatic ductal adenocarcinoma (PDAC) is the third leading cause of cancer death in North America, accounting for >30,000 deaths annually. Although somatic activating mutations in KRAS appear in 97% of PDAC patients, additional factors are required to initiate PDAC. Because mutations in genes encoding chromatin remodelling proteins have been implicated in KRAS-mediated PDAC, we investigated whether loss of chromatin remodeler ɑ-thalassemia, mental-retardation, X-linked (ATRX) affects oncogenic KRAS’s ability to promote PDAC. ATRX affects DNA replication, repair, and gene expression and is implicated in other cancers including glioblastomas and pancreatic neuroendocrine tumors. The hypothesis was that deletion of Atrx in pancreatic acinar cells will increase susceptibility to injury and oncogenic KRAS.

Methods

Mice allowing conditional loss of Atrx within pancreatic acinar cells were examined after induction of recurrent cerulein-induced pancreatitis or oncogenic KRAS (KRASG12D). Histologic, biochemical, and molecular analysis examined pancreatic pathologies up to 2 months after induction of Atrx deletion.

Results

Mice lacking Atrx showed more progressive damage, inflammation, and acinar-to-duct cell metaplasia in response to injury relative to wild-type mice. In combination with KRASG12D, Atrx-deficient acinar cells showed increased fibrosis, inflammation, progression to acinar-to-duct cell metaplasia, and pre-cancerous lesions relative to mice expressing only KRASG12D. This sensitivity appears only in female mice, mimicking a significant prevalence of ATRX mutations in human female PDAC patients.

Conclusions

Our results indicate the absence of ATRX increases sensitivity to injury and oncogenic KRAS only in female mice. This is an instance of a sex-specific mutation that enhances oncogenic KRAS’s ability to promote pancreatic intraepithelial lesion formation.

Notes

Also available open access in Cellular and Molecular Gastroenterology and Hepatology at https://doi.org/10.1016/j.jcmgh.2018.09.004