Genomic landscape of cell-free DNA in patients with colorectal cancer

John H. Strickler; Jonathan M. Loree; Leanne G. Ahronian; Aparna R. Parikh; Donna Niedzwiecki; Allan Andresson Lima Pereira; Matthew McKinney; W. Michael Korn; Chloe E. Atreya; Kimberly C. Banks; Rebecca J. Nagy; Funda Meric-Bernstam; Richard B. Lanman; Amir Ali Talasaz; Igor F. Tsigelny; Ryan B. Corcoran; Scott Kopetz

doi:10.1158/2159-8290.CD-17-1009

Genomic landscape of cell-free DNA in patients with colorectal cancer

John H. Strickler, Jonathan M. Loree, Leanne G. Ahronian, Aparna R. Parikh, Donna Niedzwiecki, Allan Andresson Lima Pereira, Matthew McKinney, W. Michael Korn, Chloe E. Atreya, Kimberly C. Banks, Rebecca J. Nagy, Funda Meric-Bernstam, Richard B. Lanman, Amir Ali Talasaz, Igor F. Tsigelny, Ryan B. Corcoran, Scott Kopetz

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208 Scopus citations

Abstract

“Liquid biopsy” approaches analyzing cell-free DNA (cfDNA) from the blood of patients with cancer are increasingly utilized in clinical practice. However, it is not yet known whether cfDNA sequencing from large cohorts of patients with cancer can detect genomic alterations at frequencies similar to those observed by direct tumor sequencing, and whether this approach can generate novel insights. Here, we report next-generation sequencing data from cfDNA of 1,397 patients with colorectal cancer. Overall, frequencies of genomic alterations detected in cfDNA were comparable to those observed in three independent tissue-based colorectal cancer sequencing compendia. Our analysis also identified a novel cluster of extracellular domain (ECD) mutations in EGFR, mediating resistance by blocking binding of anti-EGFR antibodies. Patients with EGFR ECD mutations displayed striking tumor heterogeneity, with 91% harboring multiple distinct resistance alterations (range, 1-13; median, 4). These results suggest that cfDNA profiling can effectively define the genomic landscape of cancer and yield important biological insights. SIGNIFICANCE: This study provides one of the fi rst examples of how large-scale genomic profi ling of cfDNA from patients with colorectal cancer can detect genomic alterations at frequencies comparable to those observed by direct tumor sequencing. Sequencing of cfDNA also generated insights into tumor heterogeneity and therapeutic resistance and identifi ed novel EGFR ectodomain mutations.

Original language	English (US)
Pages (from-to)	164-173
Number of pages	10
Journal	Cancer discovery
Volume	8
Issue number	2
DOIs	https://doi.org/10.1158/2159-8290.CD-17-1009
State	Published - Feb 2018

ASJC Scopus subject areas

Oncology

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10.1158/2159-8290.CD-17-1009

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Strickler, J. H., Loree, J. M., Ahronian, L. G., Parikh, A. R., Niedzwiecki, D., Pereira, A. A. L., McKinney, M., Michael Korn, W., Atreya, C. E., Banks, K. C., Nagy, R. J., Meric-Bernstam, F., Lanman, R. B., Talasaz, A. A., Tsigelny, I. F., Corcoran, R. B., & Kopetz, S. (2018). Genomic landscape of cell-free DNA in patients with colorectal cancer. Cancer discovery, 8(2), 164-173. https://doi.org/10.1158/2159-8290.CD-17-1009

Strickler, JH, Loree, JM, Ahronian, LG, Parikh, AR, Niedzwiecki, D, Pereira, AAL, McKinney, M, Michael Korn, W, Atreya, CE, Banks, KC, Nagy, RJ, Meric-Bernstam, F, Lanman, RB, Talasaz, AA, Tsigelny, IF, Corcoran, RB & Kopetz, S 2018, 'Genomic landscape of cell-free DNA in patients with colorectal cancer', Cancer discovery, vol. 8, no. 2, pp. 164-173. https://doi.org/10.1158/2159-8290.CD-17-1009

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title = "Genomic landscape of cell-free DNA in patients with colorectal cancer",

abstract = "“Liquid biopsy” approaches analyzing cell-free DNA (cfDNA) from the blood of patients with cancer are increasingly utilized in clinical practice. However, it is not yet known whether cfDNA sequencing from large cohorts of patients with cancer can detect genomic alterations at frequencies similar to those observed by direct tumor sequencing, and whether this approach can generate novel insights. Here, we report next-generation sequencing data from cfDNA of 1,397 patients with colorectal cancer. Overall, frequencies of genomic alterations detected in cfDNA were comparable to those observed in three independent tissue-based colorectal cancer sequencing compendia. Our analysis also identified a novel cluster of extracellular domain (ECD) mutations in EGFR, mediating resistance by blocking binding of anti-EGFR antibodies. Patients with EGFR ECD mutations displayed striking tumor heterogeneity, with 91% harboring multiple distinct resistance alterations (range, 1-13; median, 4). These results suggest that cfDNA profiling can effectively define the genomic landscape of cancer and yield important biological insights. SIGNIFICANCE: This study provides one of the fi rst examples of how large-scale genomic profi ling of cfDNA from patients with colorectal cancer can detect genomic alterations at frequencies comparable to those observed by direct tumor sequencing. Sequencing of cfDNA also generated insights into tumor heterogeneity and therapeutic resistance and identifi ed novel EGFR ectodomain mutations.",

author = "Strickler, {John H.} and Loree, {Jonathan M.} and Ahronian, {Leanne G.} and Parikh, {Aparna R.} and Donna Niedzwiecki and Pereira, {Allan Andresson Lima} and Matthew McKinney and {Michael Korn}, W. and Atreya, {Chloe E.} and Banks, {Kimberly C.} and Nagy, {Rebecca J.} and Funda Meric-Bernstam and Lanman, {Richard B.} and Talasaz, {Amir Ali} and Tsigelny, {Igor F.} and Corcoran, {Ryan B.} and Scott Kopetz",

note = "Funding Information: The work is supported by NIH R01 CA184843 (to S. Kopetz), CPRIT grant RP150535 (to F. Meric-Bernstam), an ASCO Young Investigator Award, Canadian Association of Medical Oncologists Research Fellowship, and Detweiler Fellowship (to J.M. Loree), NIH/NCI K08CA175143 (to C.E. Atreya), and a Damon Runyon Clinical Investigator Award, NIH/NCI Gastrointestinal Cancer SPORE P50 CA127003, R01CA208437, and K08CA166510. Research was supported by a Stand Up To Cancer Colorectal Cancer Dream Team Translational Research Grant (grant number SU2C-AACR-DT22-17; to R.B. Corcoran). Research grants are administered by the American Association for Cancer Research, the scientific partner of SU2C. Publisher Copyright: {\textcopyright} 2017 American Association for Cancer Research.",

year = "2018",

month = feb,

doi = "10.1158/2159-8290.CD-17-1009",

language = "English (US)",

volume = "8",

pages = "164--173",

journal = "Cancer discovery",

issn = "2159-8274",

publisher = "American Association for Cancer Research Inc.",

number = "2",

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TY - JOUR

T1 - Genomic landscape of cell-free DNA in patients with colorectal cancer

AU - Strickler, John H.

AU - Loree, Jonathan M.

AU - Ahronian, Leanne G.

AU - Parikh, Aparna R.

AU - Niedzwiecki, Donna

AU - Pereira, Allan Andresson Lima

AU - McKinney, Matthew

AU - Michael Korn, W.

AU - Atreya, Chloe E.

AU - Banks, Kimberly C.

AU - Nagy, Rebecca J.

AU - Meric-Bernstam, Funda

AU - Lanman, Richard B.

AU - Talasaz, Amir Ali

AU - Tsigelny, Igor F.

AU - Corcoran, Ryan B.

AU - Kopetz, Scott

N1 - Funding Information: The work is supported by NIH R01 CA184843 (to S. Kopetz), CPRIT grant RP150535 (to F. Meric-Bernstam), an ASCO Young Investigator Award, Canadian Association of Medical Oncologists Research Fellowship, and Detweiler Fellowship (to J.M. Loree), NIH/NCI K08CA175143 (to C.E. Atreya), and a Damon Runyon Clinical Investigator Award, NIH/NCI Gastrointestinal Cancer SPORE P50 CA127003, R01CA208437, and K08CA166510. Research was supported by a Stand Up To Cancer Colorectal Cancer Dream Team Translational Research Grant (grant number SU2C-AACR-DT22-17; to R.B. Corcoran). Research grants are administered by the American Association for Cancer Research, the scientific partner of SU2C. Publisher Copyright: © 2017 American Association for Cancer Research.

PY - 2018/2

Y1 - 2018/2

N2 - “Liquid biopsy” approaches analyzing cell-free DNA (cfDNA) from the blood of patients with cancer are increasingly utilized in clinical practice. However, it is not yet known whether cfDNA sequencing from large cohorts of patients with cancer can detect genomic alterations at frequencies similar to those observed by direct tumor sequencing, and whether this approach can generate novel insights. Here, we report next-generation sequencing data from cfDNA of 1,397 patients with colorectal cancer. Overall, frequencies of genomic alterations detected in cfDNA were comparable to those observed in three independent tissue-based colorectal cancer sequencing compendia. Our analysis also identified a novel cluster of extracellular domain (ECD) mutations in EGFR, mediating resistance by blocking binding of anti-EGFR antibodies. Patients with EGFR ECD mutations displayed striking tumor heterogeneity, with 91% harboring multiple distinct resistance alterations (range, 1-13; median, 4). These results suggest that cfDNA profiling can effectively define the genomic landscape of cancer and yield important biological insights. SIGNIFICANCE: This study provides one of the fi rst examples of how large-scale genomic profi ling of cfDNA from patients with colorectal cancer can detect genomic alterations at frequencies comparable to those observed by direct tumor sequencing. Sequencing of cfDNA also generated insights into tumor heterogeneity and therapeutic resistance and identifi ed novel EGFR ectodomain mutations.

AB - “Liquid biopsy” approaches analyzing cell-free DNA (cfDNA) from the blood of patients with cancer are increasingly utilized in clinical practice. However, it is not yet known whether cfDNA sequencing from large cohorts of patients with cancer can detect genomic alterations at frequencies similar to those observed by direct tumor sequencing, and whether this approach can generate novel insights. Here, we report next-generation sequencing data from cfDNA of 1,397 patients with colorectal cancer. Overall, frequencies of genomic alterations detected in cfDNA were comparable to those observed in three independent tissue-based colorectal cancer sequencing compendia. Our analysis also identified a novel cluster of extracellular domain (ECD) mutations in EGFR, mediating resistance by blocking binding of anti-EGFR antibodies. Patients with EGFR ECD mutations displayed striking tumor heterogeneity, with 91% harboring multiple distinct resistance alterations (range, 1-13; median, 4). These results suggest that cfDNA profiling can effectively define the genomic landscape of cancer and yield important biological insights. SIGNIFICANCE: This study provides one of the fi rst examples of how large-scale genomic profi ling of cfDNA from patients with colorectal cancer can detect genomic alterations at frequencies comparable to those observed by direct tumor sequencing. Sequencing of cfDNA also generated insights into tumor heterogeneity and therapeutic resistance and identifi ed novel EGFR ectodomain mutations.

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Genomic landscape of cell-free DNA in patients with colorectal cancer

Abstract

ASJC Scopus subject areas

MD Anderson CCSG core facilities

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