mTORC1 inhibition restricts inflammation-associated gastrointestinal tumorigenesis in mice
Stefan Thiem, … , Andrew Jarnicki, Matthias Ernst
Stefan Thiem, … , Andrew Jarnicki, Matthias Ernst
Published January 16, 2013
Citation Information: J Clin Invest. 2013;123(2):767-781. https://doi.org/10.1172/JCI65086.
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Research Article Oncology

mTORC1 inhibition restricts inflammation-associated gastrointestinal tumorigenesis in mice

Abstract

Gastrointestinal cancers are frequently associated with chronic inflammation and excessive secretion of IL-6 family cytokines, which promote tumorigenesis through persistent activation of the GP130/JAK/STAT3 pathway. Although tumor progression can be prevented by genetic ablation of Stat3 in mice, this transcription factor remains a challenging therapeutic target with a paucity of clinically approved inhibitors. Here, we uncovered parallel and excessive activation of mTOR complex 1 (mTORC1) alongside STAT3 in human intestinal-type gastric cancers (IGCs). Furthermore, in a preclinical mouse model of IGC, GP130 ligand administration simultaneously activated mTORC1/S6 kinase and STAT3 signaling. We therefore investigated whether mTORC1 activation was required for inflammation-associated gastrointestinal tumorigenesis. Strikingly, the mTORC1-specific inhibitor RAD001 potently suppressed initiation and progression of both murine IGC and colitis-associated colon cancer. The therapeutic effect of RAD001 was associated with reduced tumor vascularization and cell proliferation but occurred independently of STAT3 activity. We analyzed the mechanism of GP130-mediated mTORC1 activation in cells and mice and revealed a requirement for JAK and PI3K activity but not for GP130 tyrosine phosphorylation or STAT3. Our results suggest that GP130-dependent activation of the druggable PI3K/mTORC1 pathway is required for inflammation-associated gastrointestinal tumorigenesis. These findings advocate clinical application of PI3K/mTORC1 inhibitors for the treatment of corresponding human malignancies.

Authors

Stefan Thiem, Thomas P. Pierce, Michelle Palmieri, Tracy L. Putoczki, Michael Buchert, Adele Preaudet, Ryan O. Farid, Chris Love, Bruno Catimel, Zhengdeng Lei, Steve Rozen, Veena Gopalakrishnan, Fred Schaper, Michael Hallek, Alex Boussioutas, Patrick Tan, Andrew Jarnicki, Matthias Ernst

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Figure 1

Coactivation of mTORC1 and STAT3 in gastric tumors of humans and gp130FF mice.

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Coactivation of mTORC1 and STAT3 in gastric tumors of humans and gp130FF...
(A and B) Representative immunostaining for serine-phosphorylated (S240/244) rpS6 and tyrosine-phosphorylated (Y705) STAT3 on biopsy sections of (A) normal human gastric mucosa and GC or (B) unaffected antra and tumors from gp130FF mice. Scale bar: 500 μm; 50 μm (insets). Also refer to Supplemental Figure 1. Higher-magnification images (insets) demonstrate staining of neoplastic epithelial cells. (C) Immunoblot analysis for pY-STAT3 and p-rpS6 of unaffected antra and pooled tumors from individual mice of the indicated genotype. (D) Correlation of the gene expression profile between gp130FF mouse tumors and human IGC. Heat map of differentially expressed genes between gp130FF tumors and antral mucosa of wild-type mice (gp130WT mice) (top). The human orthologs of these genes were used to calculate a human GP130 activation score for individual expression signatures of GC biopsies collected in Singapore or Australia (bottom). The panels depict the correlation between the GP130 activation score of each biopsy and their histological classification according to the report by Lauren (21). Also refer to Supplemental Table 1.