Fokhrul M. Hossain, Deniz A. Ucar, Samarpan Majumder, M. Matossian, G. Monticone, Keli Xu, Yong Ran, L. Minter, Y. Xi, M. Burow, T. Golde, B. Osborne, L. Miele
{"title":"摘要P5-04-19: Sulindac sulfide作为一种非免疫抑制性γ分泌酶修饰剂靶向三阴性乳腺癌","authors":"Fokhrul M. Hossain, Deniz A. Ucar, Samarpan Majumder, M. Matossian, G. Monticone, Keli Xu, Yong Ran, L. Minter, Y. Xi, M. Burow, T. Golde, B. Osborne, L. Miele","doi":"10.1158/1538-7445.sabcs19-p5-04-19","DOIUrl":null,"url":null,"abstract":"Triple negative breast cancer (TNBC) is defined as pathologically negative for estrogen receptor (ER-), progesterone receptor (PR-), and human epidermal growth factor receptor 2 amplification (HER2-). TNBCs are a heterogeneous group of clinically aggressive cancers with high risk of recurrence and metastasis, and current treatment options remain limited. Immunotherapy with checkpoint inhibitors shows promise. However, recent data show that crosstalk between cancer stem cells (CSC) and the immune microenvironment leads to immunotherapy resistance, while myeloid-derived suppressor cells (MDSC) promote CSC survival via Notch signaling. Strong evidence supports the involvement of Notch, a prominent CSC pathway, in TNBC progression. Expression of Notch1 and its ligand Jagged1 correlate with poor prognosis. Notch inhibitors, Including Gamma Secretase Inhibitors (GSIs) are quite effective in preclinical models of TNBC. However the success of GSIs in clinical trials has been limited by their intestinal toxicity and potential for adverse immunological effects. Our overarching goal is to replace GSIs with agents that lack their systemic toxicity and adverse immunological effects. We identified Sulindac Sulfide (SS), the active metabolite of FDA-approved NSAID Sulindac, as a potential candidate to replace GSIs. We confirmed that SS has Gamma Secretase Modifier (GSM) activity, in addition to cyclo-oxygenase (COX) inhibition. SS inhibits Notch1 cleavage in TNBC cells, but not in murine T-cells. SS significantly inhibited mammospheres growth in all human and murine TNBC models we tested: 1) human MDA-MB-231 cells; 2) murine TNBC model C0321, from targeted conditional knockout of Lunatic Fringe (LFng-/-); and 3) Two TNBC patient-derived xenograft models, 2K1 and 4IC. In C0321 tumors in mice, we found that SS had remarkable single-agent anti-tumor activity and virtually eliminated Notch1 expression in tumors without intestinal toxicity. SS caused an increase in intra-tumoral CD11c+ dendritic cells and CD8 cells. SS did not affect the numbers of tumor infiltrating macrophages or myeloid-derived suppressor cells (MDSC). However, SS blocked the immunosuppressive function of bone marrow-derived MDSC. RNA-Sequencing of SS-treated tumors revealed significant reduction of CXCL14, EGR1, HOXC6, MAGI2, NCAM1, APOE, CLU (a Wnt target), DTX4 (an E3-ligase positive regulator of Notch activation), and TGFB3 genes and upregulation of CCL17, EPCAM, FABP4, C4A, LTF, ZBTB16, INADL, and FGFR2 genes. Importantly, SS enhanced the antitumor effect of a-PDL1 immunotherapy in our 0321 TNBC mouse model. Our data support further investigation of SS for the treatment of TNBC, with standard of care or with immunotherapy. Repurposing an FDA-approved, safe agent for the treatment of TNBC may be significantly easier and more cost-effective than developing unproven investigational agents. Citation Format: Fokhrul Hossain, Deniz A Ucar, Samarpan Majumder, Margarite Matossian, Giulia Monticone, Keli Xu, Yong Ran, Lisa Minter, Yaguang Xi, Matthew Burow, Todd Golde, Barbara Osborne, Lucio Miele. Sulindac sulfide as a non-immune suppressive gamma secretase modifier to target triple negative breast cancer [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P5-04-19.","PeriodicalId":20307,"journal":{"name":"Poster Session Abstracts","volume":"1 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2020-02-15","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Abstract P5-04-19: Sulindac sulfide as a non-immune suppressive gamma secretase modifier to target triple negative breast cancer\",\"authors\":\"Fokhrul M. Hossain, Deniz A. Ucar, Samarpan Majumder, M. Matossian, G. Monticone, Keli Xu, Yong Ran, L. Minter, Y. Xi, M. Burow, T. Golde, B. Osborne, L. Miele\",\"doi\":\"10.1158/1538-7445.sabcs19-p5-04-19\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Triple negative breast cancer (TNBC) is defined as pathologically negative for estrogen receptor (ER-), progesterone receptor (PR-), and human epidermal growth factor receptor 2 amplification (HER2-). TNBCs are a heterogeneous group of clinically aggressive cancers with high risk of recurrence and metastasis, and current treatment options remain limited. Immunotherapy with checkpoint inhibitors shows promise. However, recent data show that crosstalk between cancer stem cells (CSC) and the immune microenvironment leads to immunotherapy resistance, while myeloid-derived suppressor cells (MDSC) promote CSC survival via Notch signaling. Strong evidence supports the involvement of Notch, a prominent CSC pathway, in TNBC progression. Expression of Notch1 and its ligand Jagged1 correlate with poor prognosis. Notch inhibitors, Including Gamma Secretase Inhibitors (GSIs) are quite effective in preclinical models of TNBC. However the success of GSIs in clinical trials has been limited by their intestinal toxicity and potential for adverse immunological effects. Our overarching goal is to replace GSIs with agents that lack their systemic toxicity and adverse immunological effects. We identified Sulindac Sulfide (SS), the active metabolite of FDA-approved NSAID Sulindac, as a potential candidate to replace GSIs. We confirmed that SS has Gamma Secretase Modifier (GSM) activity, in addition to cyclo-oxygenase (COX) inhibition. SS inhibits Notch1 cleavage in TNBC cells, but not in murine T-cells. SS significantly inhibited mammospheres growth in all human and murine TNBC models we tested: 1) human MDA-MB-231 cells; 2) murine TNBC model C0321, from targeted conditional knockout of Lunatic Fringe (LFng-/-); and 3) Two TNBC patient-derived xenograft models, 2K1 and 4IC. In C0321 tumors in mice, we found that SS had remarkable single-agent anti-tumor activity and virtually eliminated Notch1 expression in tumors without intestinal toxicity. SS caused an increase in intra-tumoral CD11c+ dendritic cells and CD8 cells. SS did not affect the numbers of tumor infiltrating macrophages or myeloid-derived suppressor cells (MDSC). However, SS blocked the immunosuppressive function of bone marrow-derived MDSC. RNA-Sequencing of SS-treated tumors revealed significant reduction of CXCL14, EGR1, HOXC6, MAGI2, NCAM1, APOE, CLU (a Wnt target), DTX4 (an E3-ligase positive regulator of Notch activation), and TGFB3 genes and upregulation of CCL17, EPCAM, FABP4, C4A, LTF, ZBTB16, INADL, and FGFR2 genes. Importantly, SS enhanced the antitumor effect of a-PDL1 immunotherapy in our 0321 TNBC mouse model. Our data support further investigation of SS for the treatment of TNBC, with standard of care or with immunotherapy. Repurposing an FDA-approved, safe agent for the treatment of TNBC may be significantly easier and more cost-effective than developing unproven investigational agents. Citation Format: Fokhrul Hossain, Deniz A Ucar, Samarpan Majumder, Margarite Matossian, Giulia Monticone, Keli Xu, Yong Ran, Lisa Minter, Yaguang Xi, Matthew Burow, Todd Golde, Barbara Osborne, Lucio Miele. Sulindac sulfide as a non-immune suppressive gamma secretase modifier to target triple negative breast cancer [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. 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Abstract P5-04-19: Sulindac sulfide as a non-immune suppressive gamma secretase modifier to target triple negative breast cancer
Triple negative breast cancer (TNBC) is defined as pathologically negative for estrogen receptor (ER-), progesterone receptor (PR-), and human epidermal growth factor receptor 2 amplification (HER2-). TNBCs are a heterogeneous group of clinically aggressive cancers with high risk of recurrence and metastasis, and current treatment options remain limited. Immunotherapy with checkpoint inhibitors shows promise. However, recent data show that crosstalk between cancer stem cells (CSC) and the immune microenvironment leads to immunotherapy resistance, while myeloid-derived suppressor cells (MDSC) promote CSC survival via Notch signaling. Strong evidence supports the involvement of Notch, a prominent CSC pathway, in TNBC progression. Expression of Notch1 and its ligand Jagged1 correlate with poor prognosis. Notch inhibitors, Including Gamma Secretase Inhibitors (GSIs) are quite effective in preclinical models of TNBC. However the success of GSIs in clinical trials has been limited by their intestinal toxicity and potential for adverse immunological effects. Our overarching goal is to replace GSIs with agents that lack their systemic toxicity and adverse immunological effects. We identified Sulindac Sulfide (SS), the active metabolite of FDA-approved NSAID Sulindac, as a potential candidate to replace GSIs. We confirmed that SS has Gamma Secretase Modifier (GSM) activity, in addition to cyclo-oxygenase (COX) inhibition. SS inhibits Notch1 cleavage in TNBC cells, but not in murine T-cells. SS significantly inhibited mammospheres growth in all human and murine TNBC models we tested: 1) human MDA-MB-231 cells; 2) murine TNBC model C0321, from targeted conditional knockout of Lunatic Fringe (LFng-/-); and 3) Two TNBC patient-derived xenograft models, 2K1 and 4IC. In C0321 tumors in mice, we found that SS had remarkable single-agent anti-tumor activity and virtually eliminated Notch1 expression in tumors without intestinal toxicity. SS caused an increase in intra-tumoral CD11c+ dendritic cells and CD8 cells. SS did not affect the numbers of tumor infiltrating macrophages or myeloid-derived suppressor cells (MDSC). However, SS blocked the immunosuppressive function of bone marrow-derived MDSC. RNA-Sequencing of SS-treated tumors revealed significant reduction of CXCL14, EGR1, HOXC6, MAGI2, NCAM1, APOE, CLU (a Wnt target), DTX4 (an E3-ligase positive regulator of Notch activation), and TGFB3 genes and upregulation of CCL17, EPCAM, FABP4, C4A, LTF, ZBTB16, INADL, and FGFR2 genes. Importantly, SS enhanced the antitumor effect of a-PDL1 immunotherapy in our 0321 TNBC mouse model. Our data support further investigation of SS for the treatment of TNBC, with standard of care or with immunotherapy. Repurposing an FDA-approved, safe agent for the treatment of TNBC may be significantly easier and more cost-effective than developing unproven investigational agents. Citation Format: Fokhrul Hossain, Deniz A Ucar, Samarpan Majumder, Margarite Matossian, Giulia Monticone, Keli Xu, Yong Ran, Lisa Minter, Yaguang Xi, Matthew Burow, Todd Golde, Barbara Osborne, Lucio Miele. Sulindac sulfide as a non-immune suppressive gamma secretase modifier to target triple negative breast cancer [abstract]. In: Proceedings of the 2019 San Antonio Breast Cancer Symposium; 2019 Dec 10-14; San Antonio, TX. Philadelphia (PA): AACR; Cancer Res 2020;80(4 Suppl):Abstract nr P5-04-19.