Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing

Bryce P. Portier; Rashmi Kanagal Shamanna; Rajyalakshmi Luthra; Rajesh Singh; Mark J Routbort; Brian Handal; Neelima Reddy; Bedia A. Barkoh; Zhuang Zuo; L Jeffrey Medeiros; Kenneth Aldape; Keyur Pravinchandra Patel

doi:10.1309/AJCP1JUGQMW7ZNTL

Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing

Bryce P. Portier, Rashmi Kanagal Shamanna, Rajyalakshmi Luthra, Rajesh Singh, Mark J Routbort, Brian Handal, Neelima Reddy, Bedia A. Barkoh, Zhuang Zuo, L Jeffrey Medeiros, Kenneth Aldape, Keyur Pravinchandra Patel

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

22 Scopus citations

Abstract

Objectives: Identification of tumor-specific somatic mutations has had a significant impact on both disease diagnosis and therapy selection. The ability of next-generation sequencing (NGS) to provide a quantitative assessment of mutant allele burden, in numerous target genes in a single assay, provides a significant advantage over conventional qualitative genotyping platforms. Methods: We assessed the quantitative capability of NGS and a primer extension-based matrix-assisted laser desorption ionization-time-of-flight (PE-MALDI) assay and directly correlated NGS mutant allele burden determination to morphologic assessment of tumor percentage in H&E-stained slides. Results: Our results show a 100% concordance between NGS and PE-MALDI in mutant allele detection and a significant correlation between NGS and PE-MALDI for determining mutant allele burden when mutant allele burden is 10% or more. Conclusions: NGS-based mutation screening provides a quantitative assessment comparable to that of PE-MALDI. In addition, NGS also allows for a high degree of multiplexing and uses nanogram quantities of DNA, thereby preserving precious material for future analysis. Furthermore, this study provides evidence that H&E-based morphologic assessment of tumor burden does not correlate to actual tumor mutant allele burden frequency.

Original language	English (US)
Pages (from-to)	559-572
Number of pages	14
Journal	American journal of clinical pathology
Volume	141
Issue number	4
DOIs	https://doi.org/10.1309/AJCP1JUGQMW7ZNTL
State	Published - Apr 2014

Keywords

AmpliSeq cancer panel
Ion torrent
Massarray
Mutant allele burden
Mutant allele frequency
Next-generation sequencing
Sequenom

ASJC Scopus subject areas

Pathology and Forensic Medicine

MD Anderson CCSG core facilities

Clinical Trials Office

Access to Document

10.1309/AJCP1JUGQMW7ZNTL

Cite this

Portier, B. P., Kanagal Shamanna, R., Luthra, R., Singh, R., Routbort, M. J., Handal, B., Reddy, N., Barkoh, B. A., Zuo, Z., Medeiros, L. J., Aldape, K., & Patel, K. P. (2014). Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing. American journal of clinical pathology, 141(4), 559-572. https://doi.org/10.1309/AJCP1JUGQMW7ZNTL

Portier, BP, Kanagal Shamanna, R , Luthra, R, Singh, R, Routbort, MJ, Handal, B, Reddy, N, Barkoh, BA, Zuo, Z , Medeiros, LJ, Aldape, K & Patel, KP 2014, 'Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing', American journal of clinical pathology, vol. 141, no. 4, pp. 559-572. https://doi.org/10.1309/AJCP1JUGQMW7ZNTL

@article{42e655cb0fe047b6b9b2706f7a0852eb,

title = "Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing",

abstract = "Objectives: Identification of tumor-specific somatic mutations has had a significant impact on both disease diagnosis and therapy selection. The ability of next-generation sequencing (NGS) to provide a quantitative assessment of mutant allele burden, in numerous target genes in a single assay, provides a significant advantage over conventional qualitative genotyping platforms. Methods: We assessed the quantitative capability of NGS and a primer extension-based matrix-assisted laser desorption ionization-time-of-flight (PE-MALDI) assay and directly correlated NGS mutant allele burden determination to morphologic assessment of tumor percentage in H&E-stained slides. Results: Our results show a 100% concordance between NGS and PE-MALDI in mutant allele detection and a significant correlation between NGS and PE-MALDI for determining mutant allele burden when mutant allele burden is 10% or more. Conclusions: NGS-based mutation screening provides a quantitative assessment comparable to that of PE-MALDI. In addition, NGS also allows for a high degree of multiplexing and uses nanogram quantities of DNA, thereby preserving precious material for future analysis. Furthermore, this study provides evidence that H&E-based morphologic assessment of tumor burden does not correlate to actual tumor mutant allele burden frequency.",

keywords = "AmpliSeq cancer panel, Ion torrent, Massarray, Mutant allele burden, Mutant allele frequency, Next-generation sequencing, Sequenom",

author = "Portier, {Bryce P.} and {Kanagal Shamanna}, Rashmi and Rajyalakshmi Luthra and Rajesh Singh and Routbort, {Mark J} and Brian Handal and Neelima Reddy and Barkoh, {Bedia A.} and Zhuang Zuo and Medeiros, {L Jeffrey} and Kenneth Aldape and Patel, {Keyur Pravinchandra}",

year = "2014",

month = apr,

doi = "10.1309/AJCP1JUGQMW7ZNTL",

language = "English (US)",

volume = "141",

pages = "559--572",

journal = "American journal of clinical pathology",

issn = "0002-9173",

publisher = "American Society of Clinical Pathologists",

number = "4",

}

TY - JOUR

T1 - Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing

AU - Portier, Bryce P.

AU - Kanagal Shamanna, Rashmi

AU - Luthra, Rajyalakshmi

AU - Singh, Rajesh

AU - Routbort, Mark J

AU - Handal, Brian

AU - Reddy, Neelima

AU - Barkoh, Bedia A.

AU - Zuo, Zhuang

AU - Medeiros, L Jeffrey

AU - Aldape, Kenneth

AU - Patel, Keyur Pravinchandra

PY - 2014/4

Y1 - 2014/4

N2 - Objectives: Identification of tumor-specific somatic mutations has had a significant impact on both disease diagnosis and therapy selection. The ability of next-generation sequencing (NGS) to provide a quantitative assessment of mutant allele burden, in numerous target genes in a single assay, provides a significant advantage over conventional qualitative genotyping platforms. Methods: We assessed the quantitative capability of NGS and a primer extension-based matrix-assisted laser desorption ionization-time-of-flight (PE-MALDI) assay and directly correlated NGS mutant allele burden determination to morphologic assessment of tumor percentage in H&E-stained slides. Results: Our results show a 100% concordance between NGS and PE-MALDI in mutant allele detection and a significant correlation between NGS and PE-MALDI for determining mutant allele burden when mutant allele burden is 10% or more. Conclusions: NGS-based mutation screening provides a quantitative assessment comparable to that of PE-MALDI. In addition, NGS also allows for a high degree of multiplexing and uses nanogram quantities of DNA, thereby preserving precious material for future analysis. Furthermore, this study provides evidence that H&E-based morphologic assessment of tumor burden does not correlate to actual tumor mutant allele burden frequency.

AB - Objectives: Identification of tumor-specific somatic mutations has had a significant impact on both disease diagnosis and therapy selection. The ability of next-generation sequencing (NGS) to provide a quantitative assessment of mutant allele burden, in numerous target genes in a single assay, provides a significant advantage over conventional qualitative genotyping platforms. Methods: We assessed the quantitative capability of NGS and a primer extension-based matrix-assisted laser desorption ionization-time-of-flight (PE-MALDI) assay and directly correlated NGS mutant allele burden determination to morphologic assessment of tumor percentage in H&E-stained slides. Results: Our results show a 100% concordance between NGS and PE-MALDI in mutant allele detection and a significant correlation between NGS and PE-MALDI for determining mutant allele burden when mutant allele burden is 10% or more. Conclusions: NGS-based mutation screening provides a quantitative assessment comparable to that of PE-MALDI. In addition, NGS also allows for a high degree of multiplexing and uses nanogram quantities of DNA, thereby preserving precious material for future analysis. Furthermore, this study provides evidence that H&E-based morphologic assessment of tumor burden does not correlate to actual tumor mutant allele burden frequency.

KW - AmpliSeq cancer panel

KW - Ion torrent

KW - Massarray

KW - Mutant allele burden

KW - Mutant allele frequency

KW - Next-generation sequencing

KW - Sequenom

UR - http://www.scopus.com/inward/record.url?scp=84899492822&partnerID=8YFLogxK

UR - http://www.scopus.com/inward/citedby.url?scp=84899492822&partnerID=8YFLogxK

U2 - 10.1309/AJCP1JUGQMW7ZNTL

DO - 10.1309/AJCP1JUGQMW7ZNTL

M3 - Article

C2 - 24619758

AN - SCOPUS:84899492822

SN - 0002-9173

VL - 141

SP - 559

EP - 572

JO - American journal of clinical pathology

JF - American journal of clinical pathology

IS - 4

ER -

Quantitative assessment of mutant allele burden in solid tumors by semiconductor-based next-generation sequencing

Abstract

Keywords

ASJC Scopus subject areas

MD Anderson CCSG core facilities

Access to Document

Other files and links

Fingerprint

Cite this