Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)

Therapeutically actionable molecular alterations are widely distributed across cancer types. The National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH) trial was designed to evaluate targeted therapy antitumor activity in underexplored cancer types. Tumor biopsy specimens were a...

Descripción completa

Detalles Bibliográficos
Autores principales: Flaherty, Keith T., Gray, Robert J., Chen, Alice P., Li, Shuli, McShane, Lisa M., Patton, David, Hamilton, Stanley R., Williams, P. Mickey, Iafrate, A. John, Sklar, Jeffrey, Mitchell, Edith P., Harris, Lyndsay N., Takebe, Naoko, Sims, David J., Coffey, Brent, Fu, Tony, Routbort, Mark, Zwiebel, James A., Rubinstein, Larry V., Little, Richard F., Arteaga, Carlos L., Comis, Robert, Abrams, Jeffrey S., O’Dwyer, Peter J., Conley, Barbara A.
Formato: Online Artículo Texto
Lenguaje:English
Publicado: American Society of Clinical Oncology 2020
Materias:
ORIGINAL REPORTS
Acceso en línea:https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7676882/
https://www.ncbi.nlm.nih.gov/pubmed/33048619
http://dx.doi.org/10.1200/JCO.19.03010
_version_ 1783611865874563072
author Flaherty, Keith T.
Gray, Robert J.
Chen, Alice P.
Li, Shuli
McShane, Lisa M.
Patton, David
Hamilton, Stanley R.
Williams, P. Mickey
Iafrate, A. John
Sklar, Jeffrey
Mitchell, Edith P.
Harris, Lyndsay N.
Takebe, Naoko
Sims, David J.
Coffey, Brent
Fu, Tony
Routbort, Mark
Zwiebel, James A.
Rubinstein, Larry V.
Little, Richard F.
Arteaga, Carlos L.
Comis, Robert
Abrams, Jeffrey S.
O’Dwyer, Peter J.
Conley, Barbara A.
author_facet Flaherty, Keith T.
Gray, Robert J.
Chen, Alice P.
Li, Shuli
McShane, Lisa M.
Patton, David
Hamilton, Stanley R.
Williams, P. Mickey
Iafrate, A. John
Sklar, Jeffrey
Mitchell, Edith P.
Harris, Lyndsay N.
Takebe, Naoko
Sims, David J.
Coffey, Brent
Fu, Tony
Routbort, Mark
Zwiebel, James A.
Rubinstein, Larry V.
Little, Richard F.
Arteaga, Carlos L.
Comis, Robert
Abrams, Jeffrey S.
O’Dwyer, Peter J.
Conley, Barbara A.
author_sort Flaherty, Keith T.
collection PubMed
description Therapeutically actionable molecular alterations are widely distributed across cancer types. The National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH) trial was designed to evaluate targeted therapy antitumor activity in underexplored cancer types. Tumor biopsy specimens were analyzed centrally with next-generation sequencing (NGS) in a master screening protocol. Patients with a tumor molecular alteration addressed by a targeted treatment lacking established efficacy in that tumor type were assigned to 1 of 30 treatments in parallel, single-arm, phase II subprotocols. PATIENTS AND METHODS: Tumor biopsy specimens from 5,954 patients with refractory malignancies at 1,117 accrual sites were analyzed centrally with NGS and selected immunohistochemistry in a master screening protocol. The treatment-assignment rate to treatment arms was assessed. Molecular alterations in seven tumors profiled in both NCI-MATCH trial and The Cancer Genome Atlas (TCGA) of primary tumors were compared. RESULTS: Molecular profiling was successful in 93.0% of specimens. An actionable alteration was found in 37.6%. After applying clinical and molecular exclusion criteria, 17.8% were assigned (26.4% could have been assigned if all subprotocols were available simultaneously). Eleven subprotocols reached their accrual goal as of this report. Actionability rates differed among histologies (eg, > 35% for urothelial cancers and < 6% for pancreatic and small-cell lung cancer). Multiple actionable or resistance-conferring tumor mutations were seen in 11.9% and 71.3% of specimens, respectively. Known resistance mutations to targeted therapies were numerically more frequent in NCI-MATCH than TCGA tumors, but not markedly so. CONCLUSION: We demonstrated feasibility of screening large numbers of patients at numerous accruing sites in a complex trial to test investigational therapies for moderately frequent molecular targets. Co-occurring resistance mutations were common and endorse investigation of combination targeted-therapy regimens.
format Online
Article
Text
id pubmed-7676882
institution National Center for Biotechnology Information
language English
publishDate 2020
publisher American Society of Clinical Oncology
record_format MEDLINE/PubMed
spelling pubmed-76768822021-11-20 Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH) Flaherty, Keith T. Gray, Robert J. Chen, Alice P. Li, Shuli McShane, Lisa M. Patton, David Hamilton, Stanley R. Williams, P. Mickey Iafrate, A. John Sklar, Jeffrey Mitchell, Edith P. Harris, Lyndsay N. Takebe, Naoko Sims, David J. Coffey, Brent Fu, Tony Routbort, Mark Zwiebel, James A. Rubinstein, Larry V. Little, Richard F. Arteaga, Carlos L. Comis, Robert Abrams, Jeffrey S. O’Dwyer, Peter J. Conley, Barbara A. J Clin Oncol ORIGINAL REPORTS Therapeutically actionable molecular alterations are widely distributed across cancer types. The National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH) trial was designed to evaluate targeted therapy antitumor activity in underexplored cancer types. Tumor biopsy specimens were analyzed centrally with next-generation sequencing (NGS) in a master screening protocol. Patients with a tumor molecular alteration addressed by a targeted treatment lacking established efficacy in that tumor type were assigned to 1 of 30 treatments in parallel, single-arm, phase II subprotocols. PATIENTS AND METHODS: Tumor biopsy specimens from 5,954 patients with refractory malignancies at 1,117 accrual sites were analyzed centrally with NGS and selected immunohistochemistry in a master screening protocol. The treatment-assignment rate to treatment arms was assessed. Molecular alterations in seven tumors profiled in both NCI-MATCH trial and The Cancer Genome Atlas (TCGA) of primary tumors were compared. RESULTS: Molecular profiling was successful in 93.0% of specimens. An actionable alteration was found in 37.6%. After applying clinical and molecular exclusion criteria, 17.8% were assigned (26.4% could have been assigned if all subprotocols were available simultaneously). Eleven subprotocols reached their accrual goal as of this report. Actionability rates differed among histologies (eg, > 35% for urothelial cancers and < 6% for pancreatic and small-cell lung cancer). Multiple actionable or resistance-conferring tumor mutations were seen in 11.9% and 71.3% of specimens, respectively. Known resistance mutations to targeted therapies were numerically more frequent in NCI-MATCH than TCGA tumors, but not markedly so. CONCLUSION: We demonstrated feasibility of screening large numbers of patients at numerous accruing sites in a complex trial to test investigational therapies for moderately frequent molecular targets. Co-occurring resistance mutations were common and endorse investigation of combination targeted-therapy regimens. American Society of Clinical Oncology 2020-11-20 2020-10-13 /pmc/articles/PMC7676882/ /pubmed/33048619 http://dx.doi.org/10.1200/JCO.19.03010 Text en © 2020 by American Society of Clinical Oncology https://creativecommons.org/licenses/by/4.0/Licensed under the Creative Commons Attribution 4.0 License: http://creativecommons.org/licenses/by/4.0/ (https://creativecommons.org/licenses/by/4.0/) .
spellingShingle ORIGINAL REPORTS
Flaherty, Keith T.
Gray, Robert J.
Chen, Alice P.
Li, Shuli
McShane, Lisa M.
Patton, David
Hamilton, Stanley R.
Williams, P. Mickey
Iafrate, A. John
Sklar, Jeffrey
Mitchell, Edith P.
Harris, Lyndsay N.
Takebe, Naoko
Sims, David J.
Coffey, Brent
Fu, Tony
Routbort, Mark
Zwiebel, James A.
Rubinstein, Larry V.
Little, Richard F.
Arteaga, Carlos L.
Comis, Robert
Abrams, Jeffrey S.
O’Dwyer, Peter J.
Conley, Barbara A.
Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title_full Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title_fullStr Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title_full_unstemmed Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title_short Molecular Landscape and Actionable Alterations in a Genomically Guided Cancer Clinical Trial: National Cancer Institute Molecular Analysis for Therapy Choice (NCI-MATCH)
title_sort molecular landscape and actionable alterations in a genomically guided cancer clinical trial: national cancer institute molecular analysis for therapy choice (nci-match)
topic ORIGINAL REPORTS
url https://www.ncbi.nlm.nih.gov/pmc/articles/PMC7676882/
https://www.ncbi.nlm.nih.gov/pubmed/33048619
http://dx.doi.org/10.1200/JCO.19.03010
work_keys_str_mv AT flahertykeitht molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT grayrobertj molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT chenalicep molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT lishuli molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT mcshanelisam molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT pattondavid molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT hamiltonstanleyr molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT williamspmickey molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT iafrateajohn molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT sklarjeffrey molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT mitchelledithp molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT harrislyndsayn molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT takebenaoko molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT simsdavidj molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT coffeybrent molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT futony molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT routbortmark molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT zwiebeljamesa molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT rubinsteinlarryv molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT littlerichardf molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT arteagacarlosl molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT comisrobert molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT abramsjeffreys molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT odwyerpeterj molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch
AT conleybarbaraa molecularlandscapeandactionablealterationsinagenomicallyguidedcancerclinicaltrialnationalcancerinstitutemolecularanalysisfortherapychoicencimatch

Ejemplares similares