Cargando…
α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas
BACKGROUND: Checkpoint blockade immunotherapy has improved metastatic cancer patient survival, but response rates remain low. There is an unmet need to identify mechanisms and tools to circumvent resistance. In human patients, responses to checkpoint blockade therapy correlate with tumor mutation lo...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
BioMed Central
2019
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6399967/ https://www.ncbi.nlm.nih.gov/pubmed/30832732 http://dx.doi.org/10.1186/s40425-018-0493-9 |
| _version_ | 1783399856640884736 |
|---|---|
| author | Dodagatta-Marri, E. Meyer, D. S. Reeves, M. Q. Paniagua, R. To, M. D. Binnewies, M. Broz, M. L. Mori, H. Wu, D. Adoumie, M. Del Rosario, R. Li, O. Buchmann, T. Liang, B. Malato, J. Arce Vargus, F. Sheppard, D. Hann, B. C. Mirza, A. Quezada, S. A. Rosenblum, M. D. Krummel, M. F. Balmain, A. Akhurst, R. J. |
| author_facet | Dodagatta-Marri, E. Meyer, D. S. Reeves, M. Q. Paniagua, R. To, M. D. Binnewies, M. Broz, M. L. Mori, H. Wu, D. Adoumie, M. Del Rosario, R. Li, O. Buchmann, T. Liang, B. Malato, J. Arce Vargus, F. Sheppard, D. Hann, B. C. Mirza, A. Quezada, S. A. Rosenblum, M. D. Krummel, M. F. Balmain, A. Akhurst, R. J. |
| author_sort | Dodagatta-Marri, E. |
| collection | PubMed |
| description | BACKGROUND: Checkpoint blockade immunotherapy has improved metastatic cancer patient survival, but response rates remain low. There is an unmet need to identify mechanisms and tools to circumvent resistance. In human patients, responses to checkpoint blockade therapy correlate with tumor mutation load, and intrinsic resistance associates with pre-treatment signatures of epithelial mesenchymal transition (EMT), immunosuppression, macrophage chemotaxis and TGFβ signaling. METHODS: To facilitate studies on mechanisms of squamous cell carcinoma (SCC) evasion of checkpoint blockade immunotherapy, we sought to develop a novel panel of murine syngeneic SCC lines reflecting the heterogeneity of human cancer and its responses to immunotherapy. We characterized six Kras-driven cutaneous SCC lines with a range of mutation loads. Following implantation into syngeneic FVB mice, we examined multiple tumor responses to α-PD-1, α-TGFβ or combinatorial therapy, including tumor growth rate and regression, tumor immune cell composition, acquired tumor immunity, and the role of cytotoxic T cells and Tregs in immunotherapy responses. RESULTS: We show that α-PD-1 therapy is ineffective in establishing complete regression (CR) of tumors in all six SCC lines, but causes partial tumor growth inhibition of two lines with the highest mutations loads, CCK168 and CCK169. α-TGFβ monotherapy results in 20% CR and 10% CR of established CCK168 and CCK169 tumors respectively, together with acquisition of long-term anti-tumor immunity. α-PD-1 synergizes with α-TGFβ, increasing CR rates to 60% (CCK168) and 20% (CCK169). α-PD-1 therapy enhances CD4 + Treg/CD4 + Th ratios and increases tumor cell pSmad3 expression in CCK168 SCCs, whereas α-TGFβ antibody administration attenuates these effects. We show that α-TGFβ acts in part through suppressing immunosuppressive Tregs induced by α-PD-1, that limit the anti-tumor activity of α-PD-1 monotherapy. Additionally, in vitro and in vivo, α-TGFβ acts directly on the tumor cell to attenuate EMT, to activate a program of gene expression that stimulates immuno-surveillance, including up regulation of genes encoding the tumor cell antigen presentation machinery. CONCLUSIONS: We show that α-PD-1 not only initiates a tumor rejection program, but can induce a competing TGFβ-driven immuno-suppressive program. We identify new opportunities for α-PD-1/α-TGFβ combinatorial treatment of SCCs especially those with a high mutation load, high CD4+ T cell content and pSmad3 signaling. Our data form the basis for clinical trial of α-TGFβ/α-PD-1 combination therapy (NCT02947165). ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1186/s40425-018-0493-9) contains supplementary material, which is available to authorized users. |
| format | Online Article Text |
| id | pubmed-6399967 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2019 |
| publisher | BioMed Central |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-63999672019-03-14 α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas Dodagatta-Marri, E. Meyer, D. S. Reeves, M. Q. Paniagua, R. To, M. D. Binnewies, M. Broz, M. L. Mori, H. Wu, D. Adoumie, M. Del Rosario, R. Li, O. Buchmann, T. Liang, B. Malato, J. Arce Vargus, F. Sheppard, D. Hann, B. C. Mirza, A. Quezada, S. A. Rosenblum, M. D. Krummel, M. F. Balmain, A. Akhurst, R. J. J Immunother Cancer Research Article BACKGROUND: Checkpoint blockade immunotherapy has improved metastatic cancer patient survival, but response rates remain low. There is an unmet need to identify mechanisms and tools to circumvent resistance. In human patients, responses to checkpoint blockade therapy correlate with tumor mutation load, and intrinsic resistance associates with pre-treatment signatures of epithelial mesenchymal transition (EMT), immunosuppression, macrophage chemotaxis and TGFβ signaling. METHODS: To facilitate studies on mechanisms of squamous cell carcinoma (SCC) evasion of checkpoint blockade immunotherapy, we sought to develop a novel panel of murine syngeneic SCC lines reflecting the heterogeneity of human cancer and its responses to immunotherapy. We characterized six Kras-driven cutaneous SCC lines with a range of mutation loads. Following implantation into syngeneic FVB mice, we examined multiple tumor responses to α-PD-1, α-TGFβ or combinatorial therapy, including tumor growth rate and regression, tumor immune cell composition, acquired tumor immunity, and the role of cytotoxic T cells and Tregs in immunotherapy responses. RESULTS: We show that α-PD-1 therapy is ineffective in establishing complete regression (CR) of tumors in all six SCC lines, but causes partial tumor growth inhibition of two lines with the highest mutations loads, CCK168 and CCK169. α-TGFβ monotherapy results in 20% CR and 10% CR of established CCK168 and CCK169 tumors respectively, together with acquisition of long-term anti-tumor immunity. α-PD-1 synergizes with α-TGFβ, increasing CR rates to 60% (CCK168) and 20% (CCK169). α-PD-1 therapy enhances CD4 + Treg/CD4 + Th ratios and increases tumor cell pSmad3 expression in CCK168 SCCs, whereas α-TGFβ antibody administration attenuates these effects. We show that α-TGFβ acts in part through suppressing immunosuppressive Tregs induced by α-PD-1, that limit the anti-tumor activity of α-PD-1 monotherapy. Additionally, in vitro and in vivo, α-TGFβ acts directly on the tumor cell to attenuate EMT, to activate a program of gene expression that stimulates immuno-surveillance, including up regulation of genes encoding the tumor cell antigen presentation machinery. CONCLUSIONS: We show that α-PD-1 not only initiates a tumor rejection program, but can induce a competing TGFβ-driven immuno-suppressive program. We identify new opportunities for α-PD-1/α-TGFβ combinatorial treatment of SCCs especially those with a high mutation load, high CD4+ T cell content and pSmad3 signaling. Our data form the basis for clinical trial of α-TGFβ/α-PD-1 combination therapy (NCT02947165). ELECTRONIC SUPPLEMENTARY MATERIAL: The online version of this article (10.1186/s40425-018-0493-9) contains supplementary material, which is available to authorized users. BioMed Central 2019-03-04 /pmc/articles/PMC6399967/ /pubmed/30832732 http://dx.doi.org/10.1186/s40425-018-0493-9 Text en © The Author(s). 2019 Open AccessThis article is distributed under the terms of the Creative Commons Attribution 4.0 International License (http://creativecommons.org/licenses/by/4.0/), which permits unrestricted use, distribution, and reproduction in any medium, provided you give appropriate credit to the original author(s) and the source, provide a link to the Creative Commons license, and indicate if changes were made. The Creative Commons Public Domain Dedication waiver (http://creativecommons.org/publicdomain/zero/1.0/) applies to the data made available in this article, unless otherwise stated. |
| spellingShingle | Research Article Dodagatta-Marri, E. Meyer, D. S. Reeves, M. Q. Paniagua, R. To, M. D. Binnewies, M. Broz, M. L. Mori, H. Wu, D. Adoumie, M. Del Rosario, R. Li, O. Buchmann, T. Liang, B. Malato, J. Arce Vargus, F. Sheppard, D. Hann, B. C. Mirza, A. Quezada, S. A. Rosenblum, M. D. Krummel, M. F. Balmain, A. Akhurst, R. J. α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title | α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title_full | α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title_fullStr | α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title_full_unstemmed | α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title_short | α-PD-1 therapy elevates Treg/Th balance and increases tumor cell pSmad3 that are both targeted by α-TGFβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| title_sort | α-pd-1 therapy elevates treg/th balance and increases tumor cell psmad3 that are both targeted by α-tgfβ antibody to promote durable rejection and immunity in squamous cell carcinomas |
| topic | Research Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC6399967/ https://www.ncbi.nlm.nih.gov/pubmed/30832732 http://dx.doi.org/10.1186/s40425-018-0493-9 |
| work_keys_str_mv | AT dodagattamarrie apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT meyerds apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT reevesmq apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT paniaguar apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT tomd apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT binnewiesm apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT brozml apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT morih apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT wud apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT adoumiem apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT delrosarior apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT lio apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT buchmannt apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT liangb apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT malatoj apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT arcevargusf apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT sheppardd apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT hannbc apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT mirzaa apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT quezadasa apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT rosenblummd apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT krummelmf apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT balmaina apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas AT akhurstrj apd1therapyelevatestregthbalanceandincreasestumorcellpsmad3thatarebothtargetedbyatgfbantibodytopromotedurablerejectionandimmunityinsquamouscellcarcinomas |