Intestinal epithelial glucocorticoid receptor promotes chronic inflammation–associated colorectal cancer
Shuang Tang, Zhan Zhang, Robert H. Oakley, Wenling Li, Weijing He, Xiaojiang Xu, Ming Ji, Qing Xu, Liang Chen, Alicia S. Wellman, Qingguo Li, Leping Li, Jian-Liang Li, Xinxiang Li, John A. Cidlowski, Xiaoling Li
Shuang Tang, Zhan Zhang, Robert H. Oakley, Wenling Li, Weijing He, Xiaojiang Xu, Ming Ji, Qing Xu, Liang Chen, Alicia S. Wellman, Qingguo Li, Leping Li, Jian-Liang Li, Xinxiang Li, John A. Cidlowski, Xiaoling Li
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Research Article Gastroenterology Oncology

Intestinal epithelial glucocorticoid receptor promotes chronic inflammation–associated colorectal cancer

Abstract

Synthetic immunosuppressive glucocorticoids (GCs) are widely used to control inflammatory bowel disease (IBD). However, the impact of GC signaling on intestinal tumorigenesis remains controversial. Here, we report that intestinal epithelial GC receptor (GR), but not whole intestinal tissue GR, promoted chronic intestinal inflammation-associated colorectal cancer in both humans and mice. In patients with colorectal cancer, GR was enriched in intestinal epithelial cells and high epithelial cell GR levels were associated with poor prognosis. Consistently, intestinal epithelium–specific deletion of GR (GR iKO) in mice increased macrophage infiltration, improved tissue recovery, and enhanced antitumor response in a chronic inflammation–associated colorectal cancer model. Consequently, GR iKO mice developed fewer and less advanced tumors than control mice. Furthermore, oral GC administration in the early phase of tissue injury delayed recovery and accelerated the formation of aggressive colorectal cancers. Our study reveals that intestinal epithelial GR signaling repressed acute colitis but promoted chronic inflammation–associated colorectal cancer. Our study suggests that colorectal epithelial GR could serve as a predictive marker for colorectal cancer risk and prognosis. Our findings further suggest that, although synthetic GC treatment for IBD should be used with caution, there is a therapeutic window for GC therapy during colorectal cancer development in immunocompetent patients.

Authors

Shuang Tang, Zhan Zhang, Robert H. Oakley, Wenling Li, Weijing He, Xiaojiang Xu, Ming Ji, Qing Xu, Liang Chen, Alicia S. Wellman, Qingguo Li, Leping Li, Jian-Liang Li, Xinxiang Li, John A. Cidlowski, Xiaoling Li

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Figure 6

Early-phase betamethasone treatment increases AOM/DSS-induced colorectal cancer formation.

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Early-phase betamethasone treatment increases AOM/DSS-induced colorectal...
(A–C) Eleven-day oral betamethasone (BMZ) treatment during the first DSS treatment/recovery cycle impairs recovery of rectal bleeding of both Flox and GR iKO mice in an AOM/DSS colorectal cancer model. Three- to four-month-old Flox and GR iKO mice under AOM/DSS treatment were subjected to oral treatment of either vehicle (0.125% ethanol) or 2.5 μg/ml BMZ from day 3 to day 14. (A) The rectal bleeding severity during the entire experimental time frame (initial animal numbers, n = 28 Flox vehicle, 27 GR iKO vehicle, 21 Flox BMZ, and 22 GR iKO BMZ). (B) Their histological scores of inflammation (left) and morphology (right) were evaluated by a professional pathologist at day 3 during the first regular water recovery phase (day 10) (n = 15 Flox vehicle, 12 GR iKO vehicle, 12 Flox BMZ, and 11 GR iKO BMZ). (C) The body weight loss and surviving animals (initial animal numbers, n = 28 Flox vehicle, 27 GR iKO vehicle, 21 Flox BMZ, and 22 GR iKO BMZ). (D and E) Oral BMZ treatment during the first DSS treatment/recovery cycle increases colon tumor formation in both Flox and GR iKO mice in an AOM/DSS colorectal cancer model (n = 10 Flox vehicle, 8 GR iKO vehicle, 9 Flox BMZ, and 7 GR iKO BMZ; data represent mean ± SEM; *q < 0.05, ***q < 0.001, 2-way ANOVA test). (F and G) Colorectal cancers developed in BMZ-treated mice are at more advanced stages compared with vehicle-treated mice in an AOM/DSS colorectal cancer model. The tumor histology and stages were evaluated by a professional pathologist, as described in Supplemental Methods (n = 9 Flox BMZ, and n = 7 GR iKO BMZ).