EZH2 deletion does not affect acinar regeneration but restricts progression to pancreatic cancer in mice
Emilie Jaune-Pons, Xiaoyi Wang, Fatemeh Mousavi, Zachary Klassen, Abdessamad El Kaoutari, Kurt Berger, Charis Johnson, Mickenzie B. Martin, Saloni Aggarwal, Sukhman Brar, Muhammad Khalid, Joanna F. Ryan, Parisa Shooshtari, Angela J. Mathison, Nelson Dusetti, Raul Urrutia, Gwen Lomberk, Christopher L. Pin
Emilie Jaune-Pons, Xiaoyi Wang, Fatemeh Mousavi, Zachary Klassen, Abdessamad El Kaoutari, Kurt Berger, Charis Johnson, Mickenzie B. Martin, Saloni Aggarwal, Sukhman Brar, Muhammad Khalid, Joanna F. Ryan, Parisa Shooshtari, Angela J. Mathison, Nelson Dusetti, Raul Urrutia, Gwen Lomberk, Christopher L. Pin
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Research Article Oncology

EZH2 deletion does not affect acinar regeneration but restricts progression to pancreatic cancer in mice

Abstract

Enhancer of zeste homologue 2 (EZH2) is part of the Polycomb Repressor Complex 2, which promotes trimethylation of lysine 27 on histone 3 (H3K27me3) and gene repression. EZH2 is overexpressed in many cancers, and studies in mice attributed both prooncogenic and tumor suppressive functions to EZH2 in pancreatic ductal adenocarcinoma (PDAC). EZH2 deletion enhances de novo KRAS-driven neoplasia following pancreatic injury, while increased EZH2 expression in patients with PDAC is correlated to poor prognosis, suggesting a context-dependant effect for EZH2 in PDAC progression. In this study, we examined EZH2 in pre- and early neoplastic stages of PDAC. Using an inducible model to delete the SET domain of EZH2 in adult acinar cells (EZH2ΔSET), we showed that loss of EZH2 activity did not prevent acinar cell regeneration in the absence of oncogenic KRAS (KRASG12D) nor did it increase PanIN formation following KRASG12D activation in adult mice. Loss of EZH2 did reduce recruitment of inflammatory cells and, when combined with a more aggressive PDAC model, promoted widespread PDAC progression and remodeling of the tumor microenvironment. This study suggests that expression of EZH2 in adult acinar cells restricts PDAC initiation and progression by affecting both the tumor microenvironment and acinar cell differentiation.

Authors

Emilie Jaune-Pons, Xiaoyi Wang, Fatemeh Mousavi, Zachary Klassen, Abdessamad El Kaoutari, Kurt Berger, Charis Johnson, Mickenzie B. Martin, Saloni Aggarwal, Sukhman Brar, Muhammad Khalid, Joanna F. Ryan, Parisa Shooshtari, Angela J. Mathison, Nelson Dusetti, Raul Urrutia, Gwen Lomberk, Christopher L. Pin

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Figure 1

KRASG12D promotes increased K27me3 enrichment in pancreatic acini.

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KRASG12D promotes increased K27me3 enrichment in pancreatic acini. (A) ...
(A) Representative images of H&E-stained pancreatic tissue from control and KRASG12D mice 22 days after TX gavage. Scale bar: 50 μm. (B) Heatmaps show K27me3 and K4me3 enrichment from 2 kb before the transcriptional start sites (TSS) to 2 kb after the transcriptional end site (TES) of all genes. Blue and yellow boxes indicate areas showing increased or decreased K27me3 enrichment in KRASG12D mice. There is reduced K27me3 at TSSs, which appears restricted in KRASG12D mice. (C) Comparison of called K27me3 and K4me3 enrichment at TSSs in control and KRASG12D acinar cells. Red dots represent genes with significantly dysregulated enrichment. Green line indicates expectation for equal enrichment between genotypes. (D) Comparison of chromatin states in control, KRASG12D, and KRASG12DEZH2ΔSET mice 22 days after KRASG12D induction based on K4me3 and K27me3 enrichment. Numbers in first column indicate the percentage of each state across of the genome. Graphs show quantification of these numbers at the different gene regions. (E) Correlation between gene expression and chromatin states in control, KRASG12D, and KRASG12DEZH2ΔSET pancreata 22 days after KRASG12D induction. Data represent mean ± SEM (n = 3 mice /group). Two-way ANOVA followed by Tukey’s post hoc test was performed. *P < 0.05; **P < 0.01; ***P < 0.001.