Cargando…
An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy
Immune checkpoint blockade elicits durable anti-cancer responses in the clinic, however a large proportion of patients do not benefit from treatment. Several mechanisms of innate and acquired resistance to checkpoint blockade have been defined and include mutations of MHC I and IFNγ signaling pathwa...
| Autores principales: | , , , , , , , , , , , , , , , , , , , |
|---|---|
| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
Taylor & Francis
2021
|
| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7971263/ https://www.ncbi.nlm.nih.gov/pubmed/33796402 http://dx.doi.org/10.1080/2162402X.2021.1881268 |
| _version_ | 1783666578976407552 |
|---|---|
| author | Bernardo, Marie Tolstykh, Tatiana Zhang, Yu-an Bangari, Dinesh S. Cao, Hui Heyl, Kerstin A. Lee, Joon Sang Malkova, Natalia V. Malley, Katie Marquez, Eladio Pollard, Jack Qu, Hui Roberts, Errin Ryan, Sue Singh, Kuldeep Sun, Fangxian Wang, Emma Bahjat, Keith Wiederschain, Dmitri Wagenaar, Timothy R. |
| author_facet | Bernardo, Marie Tolstykh, Tatiana Zhang, Yu-an Bangari, Dinesh S. Cao, Hui Heyl, Kerstin A. Lee, Joon Sang Malkova, Natalia V. Malley, Katie Marquez, Eladio Pollard, Jack Qu, Hui Roberts, Errin Ryan, Sue Singh, Kuldeep Sun, Fangxian Wang, Emma Bahjat, Keith Wiederschain, Dmitri Wagenaar, Timothy R. |
| author_sort | Bernardo, Marie |
| collection | PubMed |
| description | Immune checkpoint blockade elicits durable anti-cancer responses in the clinic, however a large proportion of patients do not benefit from treatment. Several mechanisms of innate and acquired resistance to checkpoint blockade have been defined and include mutations of MHC I and IFNγ signaling pathways. However, such mutations occur in a low frequency of patients and additional mechanisms have yet to be elucidated. In an effort to better understand acquired resistance to checkpoint blockade, we generated a mouse tumor model exhibiting in vivo resistance to anti-PD-1 antibody treatment. MC38 tumors acquired resistance to PD-1 blockade following serial in vivo passaging. Lack of sensitivity to PD-1 blockade was not attributed to dysregulation of PD-L1 or β2M expression, as both were expressed at similar levels in parental and resistant cells. Similarly, IFNγ signaling and antigen processing and presentation pathways were functional in both parental and resistant cell lines. Unbiased gene expression analysis was used to further characterize potential resistance mechanisms. RNA-sequencing revealed substantial differences in global gene expression, with tumors resistant to anti-PD-1 displaying a marked reduction in expression of immune-related genes relative to parental MC38 tumors. Indeed, resistant tumors exhibited reduced immune infiltration across multiple cell types, including T and NK cells. Pathway analysis revealed activation of TGFβ and Notch signaling in anti-PD-1 resistant tumors, and activation of these pathways was associated with poorer survival in human cancer patients. While pharmacological inhibition of TGFβ and Notch in combination with PD-1 blockade decelerated tumor growth, a local mRNA-based immunotherapy potently induced regression of resistant tumors, resulting in complete tumor remission, and resensitized tumors to treatment with anti-PD-1. Overall, this study describes a novel anti-PD-1 resistant mouse tumor model and underscores the role of two well-defined signaling pathways in response to immune checkpoint blockade. Furthermore, our data highlights the potential of intratumoral mRNA therapy in overcoming acquired resistance to PD-1 blockade. |
| format | Online Article Text |
| id | pubmed-7971263 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2021 |
| publisher | Taylor & Francis |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-79712632021-03-31 An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy Bernardo, Marie Tolstykh, Tatiana Zhang, Yu-an Bangari, Dinesh S. Cao, Hui Heyl, Kerstin A. Lee, Joon Sang Malkova, Natalia V. Malley, Katie Marquez, Eladio Pollard, Jack Qu, Hui Roberts, Errin Ryan, Sue Singh, Kuldeep Sun, Fangxian Wang, Emma Bahjat, Keith Wiederschain, Dmitri Wagenaar, Timothy R. Oncoimmunology Original Research Immune checkpoint blockade elicits durable anti-cancer responses in the clinic, however a large proportion of patients do not benefit from treatment. Several mechanisms of innate and acquired resistance to checkpoint blockade have been defined and include mutations of MHC I and IFNγ signaling pathways. However, such mutations occur in a low frequency of patients and additional mechanisms have yet to be elucidated. In an effort to better understand acquired resistance to checkpoint blockade, we generated a mouse tumor model exhibiting in vivo resistance to anti-PD-1 antibody treatment. MC38 tumors acquired resistance to PD-1 blockade following serial in vivo passaging. Lack of sensitivity to PD-1 blockade was not attributed to dysregulation of PD-L1 or β2M expression, as both were expressed at similar levels in parental and resistant cells. Similarly, IFNγ signaling and antigen processing and presentation pathways were functional in both parental and resistant cell lines. Unbiased gene expression analysis was used to further characterize potential resistance mechanisms. RNA-sequencing revealed substantial differences in global gene expression, with tumors resistant to anti-PD-1 displaying a marked reduction in expression of immune-related genes relative to parental MC38 tumors. Indeed, resistant tumors exhibited reduced immune infiltration across multiple cell types, including T and NK cells. Pathway analysis revealed activation of TGFβ and Notch signaling in anti-PD-1 resistant tumors, and activation of these pathways was associated with poorer survival in human cancer patients. While pharmacological inhibition of TGFβ and Notch in combination with PD-1 blockade decelerated tumor growth, a local mRNA-based immunotherapy potently induced regression of resistant tumors, resulting in complete tumor remission, and resensitized tumors to treatment with anti-PD-1. Overall, this study describes a novel anti-PD-1 resistant mouse tumor model and underscores the role of two well-defined signaling pathways in response to immune checkpoint blockade. Furthermore, our data highlights the potential of intratumoral mRNA therapy in overcoming acquired resistance to PD-1 blockade. Taylor & Francis 2021-03-16 /pmc/articles/PMC7971263/ /pubmed/33796402 http://dx.doi.org/10.1080/2162402X.2021.1881268 Text en © 2021 Sanofi. Published with license by Taylor & Francis Group, LLC. https://creativecommons.org/licenses/by-nc/4.0/This is an Open Access article distributed under the terms of the Creative Commons Attribution-NonCommercial License (http://creativecommons.org/licenses/by-nc/4.0/ (https://creativecommons.org/licenses/by-nc/4.0/) ), which permits unrestricted non-commercial use, distribution, and reproduction in any medium, provided the original work is properly cited. |
| spellingShingle | Original Research Bernardo, Marie Tolstykh, Tatiana Zhang, Yu-an Bangari, Dinesh S. Cao, Hui Heyl, Kerstin A. Lee, Joon Sang Malkova, Natalia V. Malley, Katie Marquez, Eladio Pollard, Jack Qu, Hui Roberts, Errin Ryan, Sue Singh, Kuldeep Sun, Fangxian Wang, Emma Bahjat, Keith Wiederschain, Dmitri Wagenaar, Timothy R. An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title | An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title_full | An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title_fullStr | An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title_full_unstemmed | An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title_short | An experimental model of anti-PD-1 resistance exhibits activation of TGFß and Notch pathways and is sensitive to local mRNA immunotherapy |
| title_sort | experimental model of anti-pd-1 resistance exhibits activation of tgfß and notch pathways and is sensitive to local mrna immunotherapy |
| topic | Original Research |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7971263/ https://www.ncbi.nlm.nih.gov/pubmed/33796402 http://dx.doi.org/10.1080/2162402X.2021.1881268 |
| work_keys_str_mv | AT bernardomarie anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT tolstykhtatiana anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT zhangyuan anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT bangaridineshs anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT caohui anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT heylkerstina anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT leejoonsang anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT malkovanataliav anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT malleykatie anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT marquezeladio anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT pollardjack anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT quhui anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT robertserrin anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT ryansue anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT singhkuldeep anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT sunfangxian anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wangemma anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT bahjatkeith anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wiederschaindmitri anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wagenaartimothyr anexperimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT bernardomarie experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT tolstykhtatiana experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT zhangyuan experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT bangaridineshs experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT caohui experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT heylkerstina experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT leejoonsang experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT malkovanataliav experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT malleykatie experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT marquezeladio experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT pollardjack experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT quhui experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT robertserrin experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT ryansue experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT singhkuldeep experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT sunfangxian experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wangemma experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT bahjatkeith experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wiederschaindmitri experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy AT wagenaartimothyr experimentalmodelofantipd1resistanceexhibitsactivationoftgfßandnotchpathwaysandissensitivetolocalmrnaimmunotherapy |