Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer

Jeffrey S. Damrauer; Wolfgang Beckabir; Jeff Klomp; Mi Zhou; Elizabeth R. Plimack; Matthew D. Galsky; Petros Grivas; Noah M. Hahn; Peter H. O’Donnell; Gopa Iyer; David I. Quinn; Benjamin G. Vincent; Diane Zipursky Quale; Sara E. Wobker; Katherine A. Hoadley; William Y. Kim; Matthew I. Milowsky

doi:10.1038/s41467-022-33980-9

Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer

Jeffrey S. Damrauer, Wolfgang Beckabir, Jeff Klomp, Mi Zhou, Elizabeth R. Plimack, Matthew D. Galsky, Petros Grivas, Noah M. Hahn, Peter H. O’Donnell, Gopa Iyer, David I. Quinn, Benjamin G. Vincent, Diane Zipursky Quale, Sara E. Wobker, Katherine A. Hoadley, William Y. Kim, Matthew I. Milowsky

School of Medicine

Research output: Contribution to journal › Article › peer-review

Abstract

Urothelial Cancer - Genomic Analysis to Improve Patient Outcomes and Research (NCT02643043), UC-GENOME, is a genomic analysis and biospecimen repository study in 218 patients with metastatic urothelial carcinoma. Here we report on the primary outcome of the UC-GENOME—the proportion of subjects who received next generation sequencing (NGS) with treatment options—and present the initial genomic analyses and clinical correlates. 69.3% of subjects had potential treatment options, however only 5.0% received therapy based on NGS. We found an increased frequency of TP53^E285K mutations as compared to non-metastatic cohorts and identified features associated with benefit to chemotherapy and immune checkpoint inhibition, including: Ba/Sq and Stroma-rich subtypes, APOBEC mutational signature (SBS13), and inflamed tumor immune phenotype. Finally, we derive a computational model incorporating both genomic and clinical features predictive of immune checkpoint inhibitor response. Future work will utilize the biospecimens alongside these foundational analyses toward a better understanding of urothelial carcinoma biology.

Original language	English (US)
Article number	6658
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-33980-9
State	Published - Dec 2022

ASJC Scopus subject areas

General Physics and Astronomy
General Chemistry
General Biochemistry, Genetics and Molecular Biology

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10.1038/s41467-022-33980-9

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Damrauer, J. S., Beckabir, W., Klomp, J., Zhou, M., Plimack, E. R., Galsky, M. D., Grivas, P., Hahn, N. M., O’Donnell, P. H., Iyer, G., Quinn, D. I., Vincent, B. G., Quale, D. Z., Wobker, S. E., Hoadley, K. A., Kim, W. Y., & Milowsky, M. I. (2022). Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer. Nature communications, 13(1), Article 6658. https://doi.org/10.1038/s41467-022-33980-9

Damrauer, JS, Beckabir, W, Klomp, J, Zhou, M, Plimack, ER, Galsky, MD, Grivas, P, Hahn, NM, O’Donnell, PH, Iyer, G, Quinn, DI, Vincent, BG, Quale, DZ, Wobker, SE, Hoadley, KA, Kim, WY & Milowsky, MI 2022, 'Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer', Nature communications, vol. 13, no. 1, 6658. https://doi.org/10.1038/s41467-022-33980-9

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title = "Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer",

abstract = "Urothelial Cancer - Genomic Analysis to Improve Patient Outcomes and Research (NCT02643043), UC-GENOME, is a genomic analysis and biospecimen repository study in 218 patients with metastatic urothelial carcinoma. Here we report on the primary outcome of the UC-GENOME—the proportion of subjects who received next generation sequencing (NGS) with treatment options—and present the initial genomic analyses and clinical correlates. 69.3% of subjects had potential treatment options, however only 5.0% received therapy based on NGS. We found an increased frequency of TP53E285K mutations as compared to non-metastatic cohorts and identified features associated with benefit to chemotherapy and immune checkpoint inhibition, including: Ba/Sq and Stroma-rich subtypes, APOBEC mutational signature (SBS13), and inflamed tumor immune phenotype. Finally, we derive a computational model incorporating both genomic and clinical features predictive of immune checkpoint inhibitor response. Future work will utilize the biospecimens alongside these foundational analyses toward a better understanding of urothelial carcinoma biology.",

author = "Damrauer, {Jeffrey S.} and Wolfgang Beckabir and Jeff Klomp and Mi Zhou and Plimack, {Elizabeth R.} and Galsky, {Matthew D.} and Petros Grivas and Hahn, {Noah M.} and O{\textquoteright}Donnell, {Peter H.} and Gopa Iyer and Quinn, {David I.} and Vincent, {Benjamin G.} and Quale, {Diane Zipursky} and Wobker, {Sara E.} and Hoadley, {Katherine A.} and Kim, {William Y.} and Milowsky, {Matthew I.}",

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doi = "10.1038/s41467-022-33980-9",

language = "English (US)",

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AU - Damrauer, Jeffrey S.

AU - Beckabir, Wolfgang

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AU - Zhou, Mi

AU - Plimack, Elizabeth R.

AU - Galsky, Matthew D.

AU - Grivas, Petros

AU - Hahn, Noah M.

AU - O’Donnell, Peter H.

AU - Iyer, Gopa

AU - Quinn, David I.

AU - Vincent, Benjamin G.

AU - Quale, Diane Zipursky

AU - Wobker, Sara E.

AU - Hoadley, Katherine A.

AU - Kim, William Y.

AU - Milowsky, Matthew I.

PY - 2022/12

Y1 - 2022/12

N2 - Urothelial Cancer - Genomic Analysis to Improve Patient Outcomes and Research (NCT02643043), UC-GENOME, is a genomic analysis and biospecimen repository study in 218 patients with metastatic urothelial carcinoma. Here we report on the primary outcome of the UC-GENOME—the proportion of subjects who received next generation sequencing (NGS) with treatment options—and present the initial genomic analyses and clinical correlates. 69.3% of subjects had potential treatment options, however only 5.0% received therapy based on NGS. We found an increased frequency of TP53E285K mutations as compared to non-metastatic cohorts and identified features associated with benefit to chemotherapy and immune checkpoint inhibition, including: Ba/Sq and Stroma-rich subtypes, APOBEC mutational signature (SBS13), and inflamed tumor immune phenotype. Finally, we derive a computational model incorporating both genomic and clinical features predictive of immune checkpoint inhibitor response. Future work will utilize the biospecimens alongside these foundational analyses toward a better understanding of urothelial carcinoma biology.

AB - Urothelial Cancer - Genomic Analysis to Improve Patient Outcomes and Research (NCT02643043), UC-GENOME, is a genomic analysis and biospecimen repository study in 218 patients with metastatic urothelial carcinoma. Here we report on the primary outcome of the UC-GENOME—the proportion of subjects who received next generation sequencing (NGS) with treatment options—and present the initial genomic analyses and clinical correlates. 69.3% of subjects had potential treatment options, however only 5.0% received therapy based on NGS. We found an increased frequency of TP53E285K mutations as compared to non-metastatic cohorts and identified features associated with benefit to chemotherapy and immune checkpoint inhibition, including: Ba/Sq and Stroma-rich subtypes, APOBEC mutational signature (SBS13), and inflamed tumor immune phenotype. Finally, we derive a computational model incorporating both genomic and clinical features predictive of immune checkpoint inhibitor response. Future work will utilize the biospecimens alongside these foundational analyses toward a better understanding of urothelial carcinoma biology.

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Collaborative study from the Bladder Cancer Advocacy Network for the genomic analysis of metastatic urothelial cancer

Abstract

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