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Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling
Genomic sequencing has driven precision-based oncology therapy; however, genetic drivers remain unknown or non-targetable for many malignancies, demanding alternative approaches to identify therapeutic leads. Ependymomas are chemotherapy-resistant brain tumours, which, despite genomic sequencing, la...
| Autores principales: | , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , |
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| Formato: | Online Artículo Texto |
| Lenguaje: | English |
| Publicado: |
2017
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| Materias: | |
| Acceso en línea: | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5993422/ https://www.ncbi.nlm.nih.gov/pubmed/29258295 http://dx.doi.org/10.1038/nature25169 |
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| author | Mack, Stephen C. Pajtler, Kristian W. Chavez, Lukas Okonechnikov, Konstantin Bertrand, Kelsey C. Wang, Xiuxing Erkek, Serap Federation, Alexander Song, Anne Lee, Christine Wang, Xin McDonald, Laura Morrow, James J. Saiakhova, Alina Sin-Chan, Patrick Wu, Qiulian Michaelraj, Antony Miller, Tyler E. Hubert, Christopher G. Ryzhova, Marina Garzia, Livia Donovan, Laura Dombrowski, Stephen Factor, Daniel C. Luu, Betty Valentim, Claudia L.L. Gimple, Ryan C. Morton, Andrew Kim, Leo Prager, Briana C. Lee, John J.Y. Wu, Xiaochong Zuccaro, Jennifer Thompson, Yuan de Borja López Holgado, Francisco Reimand, Juri Ke, Susan Q. Tropper, Adam Lai, Sisi Vijayarajah, Senthuran Doan, Sylvia Mahadev, Vaidehi Miñan, Ana Fernandez Gröbner, Susanne N. Lienhard, Matthias Zapatka, Marc Huang, Zhiqin Aldape, Kenneth D. Carcaboso, Angel M. Houghton, Peter J. Keir, Stephen T. Milde, Till Witt, Hendrik Li, Yan Li, Chao-Jun Bian, Xiu-Wu Jones, David T.W. Scott, Ian Singh, Sheila K. Huang, Annie Dirks, Peter B. Bouffet, Eric Bradner, James E. Ramaswamy, Vijay Jabado, Nada Rutka, James T. Northcott, Paul A. Lupien, Mathieu Lichter, Peter Korshunov, Andrey Scacheri, Peter C. Pfister, Stefan M. Kool, Marcel Taylor, Michael D. Rich, Jeremy N. |
| author_facet | Mack, Stephen C. Pajtler, Kristian W. Chavez, Lukas Okonechnikov, Konstantin Bertrand, Kelsey C. Wang, Xiuxing Erkek, Serap Federation, Alexander Song, Anne Lee, Christine Wang, Xin McDonald, Laura Morrow, James J. Saiakhova, Alina Sin-Chan, Patrick Wu, Qiulian Michaelraj, Antony Miller, Tyler E. Hubert, Christopher G. Ryzhova, Marina Garzia, Livia Donovan, Laura Dombrowski, Stephen Factor, Daniel C. Luu, Betty Valentim, Claudia L.L. Gimple, Ryan C. Morton, Andrew Kim, Leo Prager, Briana C. Lee, John J.Y. Wu, Xiaochong Zuccaro, Jennifer Thompson, Yuan de Borja López Holgado, Francisco Reimand, Juri Ke, Susan Q. Tropper, Adam Lai, Sisi Vijayarajah, Senthuran Doan, Sylvia Mahadev, Vaidehi Miñan, Ana Fernandez Gröbner, Susanne N. Lienhard, Matthias Zapatka, Marc Huang, Zhiqin Aldape, Kenneth D. Carcaboso, Angel M. Houghton, Peter J. Keir, Stephen T. Milde, Till Witt, Hendrik Li, Yan Li, Chao-Jun Bian, Xiu-Wu Jones, David T.W. Scott, Ian Singh, Sheila K. Huang, Annie Dirks, Peter B. Bouffet, Eric Bradner, James E. Ramaswamy, Vijay Jabado, Nada Rutka, James T. Northcott, Paul A. Lupien, Mathieu Lichter, Peter Korshunov, Andrey Scacheri, Peter C. Pfister, Stefan M. Kool, Marcel Taylor, Michael D. Rich, Jeremy N. |
| author_sort | Mack, Stephen C. |
| collection | PubMed |
| description | Genomic sequencing has driven precision-based oncology therapy; however, genetic drivers remain unknown or non-targetable for many malignancies, demanding alternative approaches to identify therapeutic leads. Ependymomas are chemotherapy-resistant brain tumours, which, despite genomic sequencing, lack effective molecular targets. Intracranial ependymomas are segregated based on anatomical location – supratentorial region (ST) or posterior fossa (PF) – and further divided into distinct molecular subgroups that reflect differences in age of onset, gender predominance, and response to therapy(1–3). The most common and aggressive subgroup, Posterior Fossa Ependymoma Group A (PF-EPN-A), occurs in young children and appears to lack recurrent somatic mutations(2). Conversely, Posterior Fossa Ependymoma Group B (PF-EPN-B) tumours display frequent large-scale copy number gains and losses yet favourable clinical outcomes(1,3). Greater than 70% of supratentorial ependymomas are defined by highly recurrent gene fusions in the NFκB subunit RELA (ST-EPN-RELA), and less frequently involve fusion of the gene encoding the transcriptional activator YAP1 (ST-EPN-YAP1).(1,3,4) Subependymomas, a distinct histologic variant, can also be found within the ST and PF compartments accounting for the majority of tumours in the molecular subgroups ST-EPN-SE and PF-EPN-SE, respectively(1). Here, we mapped active chromatin landscapes in 42 primary ependymomas in two non-overlapping primary ependymoma cohorts with the goal of identifying essential super enhancer associated genes on which tumour cells were dependent. Enhancer regions revealed putative oncogenes, molecular targets, and pathways, which when subjected to small molecule inhibitor or shRNA treatment, diminished proliferation of patient-derived neurospheres and increased survival in mouse models of ependymomas. Through profiling of transcriptional enhancers, our study provides a framework for target and drug discovery in other cancers recalcitrant to therapeutic development because of their lack of known genetic drivers. |
| format | Online Article Text |
| id | pubmed-5993422 |
| institution | National Center for Biotechnology Information |
| language | English |
| publishDate | 2017 |
| record_format | MEDLINE/PubMed |
| spelling | pubmed-59934222018-06-20 Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling Mack, Stephen C. Pajtler, Kristian W. Chavez, Lukas Okonechnikov, Konstantin Bertrand, Kelsey C. Wang, Xiuxing Erkek, Serap Federation, Alexander Song, Anne Lee, Christine Wang, Xin McDonald, Laura Morrow, James J. Saiakhova, Alina Sin-Chan, Patrick Wu, Qiulian Michaelraj, Antony Miller, Tyler E. Hubert, Christopher G. Ryzhova, Marina Garzia, Livia Donovan, Laura Dombrowski, Stephen Factor, Daniel C. Luu, Betty Valentim, Claudia L.L. Gimple, Ryan C. Morton, Andrew Kim, Leo Prager, Briana C. Lee, John J.Y. Wu, Xiaochong Zuccaro, Jennifer Thompson, Yuan de Borja López Holgado, Francisco Reimand, Juri Ke, Susan Q. Tropper, Adam Lai, Sisi Vijayarajah, Senthuran Doan, Sylvia Mahadev, Vaidehi Miñan, Ana Fernandez Gröbner, Susanne N. Lienhard, Matthias Zapatka, Marc Huang, Zhiqin Aldape, Kenneth D. Carcaboso, Angel M. Houghton, Peter J. Keir, Stephen T. Milde, Till Witt, Hendrik Li, Yan Li, Chao-Jun Bian, Xiu-Wu Jones, David T.W. Scott, Ian Singh, Sheila K. Huang, Annie Dirks, Peter B. Bouffet, Eric Bradner, James E. Ramaswamy, Vijay Jabado, Nada Rutka, James T. Northcott, Paul A. Lupien, Mathieu Lichter, Peter Korshunov, Andrey Scacheri, Peter C. Pfister, Stefan M. Kool, Marcel Taylor, Michael D. Rich, Jeremy N. Nature Article Genomic sequencing has driven precision-based oncology therapy; however, genetic drivers remain unknown or non-targetable for many malignancies, demanding alternative approaches to identify therapeutic leads. Ependymomas are chemotherapy-resistant brain tumours, which, despite genomic sequencing, lack effective molecular targets. Intracranial ependymomas are segregated based on anatomical location – supratentorial region (ST) or posterior fossa (PF) – and further divided into distinct molecular subgroups that reflect differences in age of onset, gender predominance, and response to therapy(1–3). The most common and aggressive subgroup, Posterior Fossa Ependymoma Group A (PF-EPN-A), occurs in young children and appears to lack recurrent somatic mutations(2). Conversely, Posterior Fossa Ependymoma Group B (PF-EPN-B) tumours display frequent large-scale copy number gains and losses yet favourable clinical outcomes(1,3). Greater than 70% of supratentorial ependymomas are defined by highly recurrent gene fusions in the NFκB subunit RELA (ST-EPN-RELA), and less frequently involve fusion of the gene encoding the transcriptional activator YAP1 (ST-EPN-YAP1).(1,3,4) Subependymomas, a distinct histologic variant, can also be found within the ST and PF compartments accounting for the majority of tumours in the molecular subgroups ST-EPN-SE and PF-EPN-SE, respectively(1). Here, we mapped active chromatin landscapes in 42 primary ependymomas in two non-overlapping primary ependymoma cohorts with the goal of identifying essential super enhancer associated genes on which tumour cells were dependent. Enhancer regions revealed putative oncogenes, molecular targets, and pathways, which when subjected to small molecule inhibitor or shRNA treatment, diminished proliferation of patient-derived neurospheres and increased survival in mouse models of ependymomas. Through profiling of transcriptional enhancers, our study provides a framework for target and drug discovery in other cancers recalcitrant to therapeutic development because of their lack of known genetic drivers. 2017-12-20 2018-01-04 /pmc/articles/PMC5993422/ /pubmed/29258295 http://dx.doi.org/10.1038/nature25169 Text en Users may view, print, copy, and download text and data-mine the content in such documents, for the purposes of academic research, subject always to the full Conditions of use: http://www.nature.com/authors/editorial_policies/license.html#terms Reprints and permissions information is available at www.nature.com/reprints. |
| spellingShingle | Article Mack, Stephen C. Pajtler, Kristian W. Chavez, Lukas Okonechnikov, Konstantin Bertrand, Kelsey C. Wang, Xiuxing Erkek, Serap Federation, Alexander Song, Anne Lee, Christine Wang, Xin McDonald, Laura Morrow, James J. Saiakhova, Alina Sin-Chan, Patrick Wu, Qiulian Michaelraj, Antony Miller, Tyler E. Hubert, Christopher G. Ryzhova, Marina Garzia, Livia Donovan, Laura Dombrowski, Stephen Factor, Daniel C. Luu, Betty Valentim, Claudia L.L. Gimple, Ryan C. Morton, Andrew Kim, Leo Prager, Briana C. Lee, John J.Y. Wu, Xiaochong Zuccaro, Jennifer Thompson, Yuan de Borja López Holgado, Francisco Reimand, Juri Ke, Susan Q. Tropper, Adam Lai, Sisi Vijayarajah, Senthuran Doan, Sylvia Mahadev, Vaidehi Miñan, Ana Fernandez Gröbner, Susanne N. Lienhard, Matthias Zapatka, Marc Huang, Zhiqin Aldape, Kenneth D. Carcaboso, Angel M. Houghton, Peter J. Keir, Stephen T. Milde, Till Witt, Hendrik Li, Yan Li, Chao-Jun Bian, Xiu-Wu Jones, David T.W. Scott, Ian Singh, Sheila K. Huang, Annie Dirks, Peter B. Bouffet, Eric Bradner, James E. Ramaswamy, Vijay Jabado, Nada Rutka, James T. Northcott, Paul A. Lupien, Mathieu Lichter, Peter Korshunov, Andrey Scacheri, Peter C. Pfister, Stefan M. Kool, Marcel Taylor, Michael D. Rich, Jeremy N. Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title | Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title_full | Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title_fullStr | Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title_full_unstemmed | Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title_short | Therapeutic Targeting of Ependymoma as Informed by Oncogenic Enhancer Profiling |
| title_sort | therapeutic targeting of ependymoma as informed by oncogenic enhancer profiling |
| topic | Article |
| url | https://www.ncbi.nlm.nih.gov/pmc/articles/PMC5993422/ https://www.ncbi.nlm.nih.gov/pubmed/29258295 http://dx.doi.org/10.1038/nature25169 |
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