Inactivation of mTORC2 in macrophages is a signature of colorectal cancer that promotes tumorigenesis
Karl Katholnig, Birgit Schütz, Stephanie D. Fritsch, David Schörghofer, Monika Linke, Nyamdelger Sukhbaatar, Julia M. Matschinger, Daniela Unterleuthner, Martin Hirtl, Michaela Lang, Merima Herac, Andreas Spittler, Andreas Bergthaler, Gernot Schabbauer, Michael Bergmann, Helmut Dolznig, Markus Hengstschläger, Mark A. Magnuson, Mario Mikula, Thomas Weichhart
Karl Katholnig, Birgit Schütz, Stephanie D. Fritsch, David Schörghofer, Monika Linke, Nyamdelger Sukhbaatar, Julia M. Matschinger, Daniela Unterleuthner, Martin Hirtl, Michaela Lang, Merima Herac, Andreas Spittler, Andreas Bergthaler, Gernot Schabbauer, Michael Bergmann, Helmut Dolznig, Markus Hengstschläger, Mark A. Magnuson, Mario Mikula, Thomas Weichhart
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Research Article Gastroenterology Immunology

Inactivation of mTORC2 in macrophages is a signature of colorectal cancer that promotes tumorigenesis

Abstract

The mechanistic target of rapamycin complex 2 (mTORC2) is a potentially novel and promising anticancer target due to its critical roles in proliferation, apoptosis, and metabolic reprogramming of cancer cells. However, the activity and function of mTORC2 in distinct cells within malignant tissue in vivo is insufficiently explored. Surprisingly, in primary human and mouse colorectal cancer (CRC) samples, mTORC2 signaling could not be detected in tumor cells. In contrast, only macrophages in tumor-adjacent areas showed mTORC2 activity, which was downregulated in stromal macrophages residing within human and mouse tumor tissues. Functionally, inhibition of mTORC2 by specific deletion of Rictor in macrophages stimulated tumorigenesis in a colitis-associated CRC mouse model. This phenotype was driven by a proinflammatory reprogramming of mTORC2-deficient macrophages that promoted colitis via the cytokine SPP1/osteopontin to stimulate tumor growth. In human CRC patients, high SPP1 levels and low mTORC2 activity in tumor-associated macrophages correlated with a worsened clinical prognosis. Treatment of mice with a second-generation mTOR inhibitor that inhibits mTORC2 and mTORC1 exacerbated experimental colorectal tumorigenesis in vivo. In conclusion, mTORC2 activity is confined to macrophages in CRC and limits tumorigenesis. These results suggest activation but not inhibition of mTORC2 as a therapeutic strategy for colitis-associated CRC.

Authors

Karl Katholnig, Birgit Schütz, Stephanie D. Fritsch, David Schörghofer, Monika Linke, Nyamdelger Sukhbaatar, Julia M. Matschinger, Daniela Unterleuthner, Martin Hirtl, Michaela Lang, Merima Herac, Andreas Spittler, Andreas Bergthaler, Gernot Schabbauer, Michael Bergmann, Helmut Dolznig, Markus Hengstschläger, Mark A. Magnuson, Mario Mikula, Thomas Weichhart

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Figure 6

SPP1 correlates with tumor size and poor survival in human colorectal cancer patients.

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SPP1 correlates with tumor size and poor survival in human colorectal ca...
(A) SPP1 mRNA expression of colon primary tumor (n = 286) compared with normal colon tissue (n = 41) and rectum primary tumor (n = 9) compared with normal rectum tissue (n = 94) of the TCGA data. Lines represent the means. (B) Box blots comparing SPP1 mRNA expression in colorectal primary tumor samples of low (T1-2, n = 69) and high (T3-4, n = 300) T stage. (C) Scatter plot showing correlations between SPP1 and ITGAM (n = 380). Regression lines with corresponding 95% CI are presented within each graph. (D) Kaplan-Meier analysis of colorectal primary tumor samples distributed into low (n = 181) and high (n = 180) SPP1 expression. (E) SPP1 mRNA expression of colon primary tumor (n = 186) compared with normal colon tissue (n = 54) of the GSE41258 data. Lines represent the means. (F and G) Box plots comparing SPP1 mRNA expression in colorectal primary tumor samples of low (T1-2, n = 38) and high (T3-4, n = 144) T stage (F) and negative (N0, n = 93) and positive (N1-2, n = 89) N stage (G). (H) Kaplan-Meier analysis of colorectal primary tumor samples distributed into low (n = 91) and high (n = 91) SPP1 expression. Data are displayed as log2 mRNA expression intensity. Unpaired 2-tailed t test was used to calculate P values. To determine P values for the Kaplan-Meier analysis, we performed log-rank test.