Protein tyrosine phosphatase nonreceptor type 2 controls colorectal cancer development
Egle Katkeviciute, Larissa Hering, Ana Montalban-Arques, Philipp Busenhart, Marlene Schwarzfischer, Roberto Manzini, Javier Conde, Kirstin Atrott, Silvia Lang, Gerhard Rogler, Elisabeth Naschberger, Vera S. Schellerer, Michael Stürzl, Andreas Rickenbacher, Matthias Turina, Achim Weber, Sebastian Leibl, Gabriel E. Leventhal, Mitchell Levesque, Onur Boyman, Michael Scharl, Marianne R. Spalinger
Egle Katkeviciute, Larissa Hering, Ana Montalban-Arques, Philipp Busenhart, Marlene Schwarzfischer, Roberto Manzini, Javier Conde, Kirstin Atrott, Silvia Lang, Gerhard Rogler, Elisabeth Naschberger, Vera S. Schellerer, Michael Stürzl, Andreas Rickenbacher, Matthias Turina, Achim Weber, Sebastian Leibl, Gabriel E. Leventhal, Mitchell Levesque, Onur Boyman, Michael Scharl, Marianne R. Spalinger
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Research Article Gastroenterology Oncology

Protein tyrosine phosphatase nonreceptor type 2 controls colorectal cancer development

Abstract

Protein tyrosine phosphatase nonreceptor type 2 (PTPN2) recently emerged as a promising cancer immunotherapy target. We set out to investigate the functional role of PTPN2 in the pathogenesis of human colorectal carcinoma (CRC), as its role in immune-silent solid tumors is poorly understood. We demonstrate that in human CRC, increased PTPN2 expression and activity correlated with disease progression and decreased immune responses in tumor tissues. In particular, stage II and III tumors displayed enhanced PTPN2 protein expression in tumor-infiltrating T cells, and increased PTPN2 levels negatively correlated with expression of PD-1, CTLA4, STAT1, and granzyme A. In vivo, T cell– and DC-specific PTPN2 deletion reduced tumor burden in several CRC models by promoting CD44+ effector/memory T cells, as well as CD8+ T cell infiltration and cytotoxicity in the tumor. In direct relevance to CRC treatment, T cell–specific PTPN2 deletion potentiated anti–PD-1 efficacy and induced antitumor memory formation upon tumor rechallenge in vivo. Our data suggest a role for PTPN2 in suppressing antitumor immunity and promoting tumor development in patients with CRC. Our in vivo results identify PTPN2 as a key player in controlling the immunogenicity of CRC, with the strong potential to be exploited for cancer immunotherapy.

Authors

Egle Katkeviciute, Larissa Hering, Ana Montalban-Arques, Philipp Busenhart, Marlene Schwarzfischer, Roberto Manzini, Javier Conde, Kirstin Atrott, Silvia Lang, Gerhard Rogler, Elisabeth Naschberger, Vera S. Schellerer, Michael Stürzl, Andreas Rickenbacher, Matthias Turina, Achim Weber, Sebastian Leibl, Gabriel E. Leventhal, Mitchell Levesque, Onur Boyman, Michael Scharl, Marianne R. Spalinger

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Figure 3

PTPN2 deletion in T cells promotes T cell activation in tumor tissue.

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PTPN2 deletion in T cells promotes T cell activation in tumor tissue. Tu...
Tumors were induced as described in Figure 2. (A) Representative images and quantification of CD4 IHC staining and flow cytometric analysis of WT and Ptpn2fl/fl Cd4Cre+/– untreated and tumor tissue. Flow cytometric analysis of untreated colon tissue, inflamed nontumor tissue, and inflamed tumor tissue (n = 5 mice in each group). Scale bars: 50 μm. P values were determined by 1-way ANOVA with Tukey’s multiple-comparison test. (B and C) Frequencies of CD4+ T cells, effector/memory CD4+CD44+ T cells (spleen and mLNs), and Th1 cells (CD4+IFN-γ+), Th2 cells (CD4+IL-4+), Th17 cells (CD4+IL-17+), and Tregs (CD4+FoxP3+) (colon). P values were determined by 1-way ANOVA with Tukey’s multiple-comparison test. (D) Localization and quantification of CD8+ cells in Ptpn2fl/fl Cd4Cre+/– and WT untreated and tumor tissue. Scale bars: 50 μm. P values were determined by 1-way ANOVA with Tukey’s multiple-comparison test. (E) Frequencies of effector/memory CD8+CD44+ T cells (spleen and mLNs). P values were determined by 1-way ANOVA with Tukey’s multiple-comparison test. (F) Frequencies of CD8+granzyme B+, CD8+IFN-γ+, and the checkpoint molecule PD-1 on CD4+ and CD8+ T cells. P values were determined by 1-way ANOVA with Tukey’s multiple-comparison test. Data represent the mean ± SD. Freq., frequency.