Systematic discovery of complex insertions and deletions in human cancers

Kai Ye; Jiayin Wang; Reyka Jayasinghe; Eric Wubbo Lameijer; Joshua F. McMichael; Jie Ning; Michael D. McLellan; Mingchao Xie; Song Cao; Venkata Yellapantula; Kuan Lin Huang; Adam Scott; Steven Foltz; Beifang Niu; Kimberly J. Johnson; Matthijs Moed; P. Eline Slagboom; Feng Chen; Michael C. Wendl; Li Ding

doi:10.1038/nm.4002

Systematic discovery of complex insertions and deletions in human cancers

Kai Ye
, Jiayin Wang
, Reyka Jayasinghe
, Eric Wubbo Lameijer
, Joshua F. McMichael
, Jie Ning
, Michael D. McLellan
, Mingchao Xie
, Song Cao
, Venkata Yellapantula
, Kuan Lin Huang
, Adam Scott
, Steven Foltz
, Beifang Niu
, Kimberly J. Johnson
, Matthijs Moed
, P. Eline Slagboom
, Feng Chen
, Michael C. Wendl
, Li Ding

Washington University St. Louis
Leiden University

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

86 Scopus citations

Abstract

Complex insertions and deletions (indels) are formed by simultaneously deleting and inserting DNA fragments of different sizes at a common genomic location. Here we present a systematic analysis of somatic complex indels in the coding sequences of samples from over 8,000 cancer cases using Pindel-C. We discovered 285 complex indels in cancer-associated genes (such as PIK3R1, TP53, ARID1A, GATA3 and KMT2D) in approximately 3.5% of cases analyzed; nearly all instances of complex indels were overlooked (81.1%) or misannotated (17.6%) in previous reports of 2,199 samples. In-frame complex indels are enriched in PIK3R1 and EGFR, whereas frameshifts are prevalent in VHL, GATA3, TP53, ARID1A, PTEN and ATRX. Furthermore, complex indels display strong tissue specificity (such as VHL in kidney cancer samples and GATA3 in breast cancer samples). Finally, structural analyses support findings of previously missed, but potentially druggable, mutations in the EGFR, MET and KIT oncogenes. This study indicates the critical importance of improving complex indel discovery and interpretation in medical research.

Original language	English
Pages (from-to)	97-104
Number of pages	8
Journal	Nature Medicine
Volume	22
Issue number	1
DOIs	https://doi.org/10.1038/nm.4002
State	Published - 1 Jan 2016
Externally published	Yes

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10.1038/nm.4002

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Ye, K., Wang, J., Jayasinghe, R., Lameijer, E. W., McMichael, J. F., Ning, J., McLellan, M. D., Xie, M., Cao, S., Yellapantula, V., Huang, K. L., Scott, A., Foltz, S., Niu, B., Johnson, K. J., Moed, M., Slagboom, P. E., Chen, F., Wendl, M. C., & Ding, L. (2016). Systematic discovery of complex insertions and deletions in human cancers. Nature Medicine, 22(1), 97-104. https://doi.org/10.1038/nm.4002

@article{b20be5a8a4864d33bdf9aa80fc925424,

title = "Systematic discovery of complex insertions and deletions in human cancers",

abstract = "Complex insertions and deletions (indels) are formed by simultaneously deleting and inserting DNA fragments of different sizes at a common genomic location. Here we present a systematic analysis of somatic complex indels in the coding sequences of samples from over 8,000 cancer cases using Pindel-C. We discovered 285 complex indels in cancer-associated genes (such as PIK3R1, TP53, ARID1A, GATA3 and KMT2D) in approximately 3.5\% of cases analyzed; nearly all instances of complex indels were overlooked (81.1\%) or misannotated (17.6\%) in previous reports of 2,199 samples. In-frame complex indels are enriched in PIK3R1 and EGFR, whereas frameshifts are prevalent in VHL, GATA3, TP53, ARID1A, PTEN and ATRX. Furthermore, complex indels display strong tissue specificity (such as VHL in kidney cancer samples and GATA3 in breast cancer samples). Finally, structural analyses support findings of previously missed, but potentially druggable, mutations in the EGFR, MET and KIT oncogenes. This study indicates the critical importance of improving complex indel discovery and interpretation in medical research.",

author = "Kai Ye and Jiayin Wang and Reyka Jayasinghe and Lameijer, \{Eric Wubbo\} and McMichael, \{Joshua F.\} and Jie Ning and McLellan, \{Michael D.\} and Mingchao Xie and Song Cao and Venkata Yellapantula and Huang, \{Kuan Lin\} and Adam Scott and Steven Foltz and Beifang Niu and Johnson, \{Kimberly J.\} and Matthijs Moed and Slagboom, \{P. Eline\} and Feng Chen and Wendl, \{Michael C.\} and Li Ding",

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doi = "10.1038/nm.4002",

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Ye, K , Wang, J, Jayasinghe, R, Lameijer, EW, McMichael, JF, Ning, J, McLellan, MD, Xie, M, Cao, S, Yellapantula, V, Huang, KL, Scott, A, Foltz, S, Niu, B, Johnson, KJ, Moed, M, Slagboom, PE, Chen, F, Wendl, MC & Ding, L 2016, 'Systematic discovery of complex insertions and deletions in human cancers', Nature Medicine, vol. 22, no. 1, pp. 97-104. https://doi.org/10.1038/nm.4002

TY - JOUR

T1 - Systematic discovery of complex insertions and deletions in human cancers

AU - Ye, Kai

AU - Wang, Jiayin

AU - Jayasinghe, Reyka

AU - Lameijer, Eric Wubbo

AU - McMichael, Joshua F.

AU - Ning, Jie

AU - McLellan, Michael D.

AU - Xie, Mingchao

AU - Cao, Song

AU - Yellapantula, Venkata

AU - Huang, Kuan Lin

AU - Scott, Adam

AU - Foltz, Steven

AU - Niu, Beifang

AU - Johnson, Kimberly J.

AU - Moed, Matthijs

AU - Slagboom, P. Eline

AU - Chen, Feng

AU - Wendl, Michael C.

AU - Ding, Li

PY - 2016/1/1

Y1 - 2016/1/1

N2 - Complex insertions and deletions (indels) are formed by simultaneously deleting and inserting DNA fragments of different sizes at a common genomic location. Here we present a systematic analysis of somatic complex indels in the coding sequences of samples from over 8,000 cancer cases using Pindel-C. We discovered 285 complex indels in cancer-associated genes (such as PIK3R1, TP53, ARID1A, GATA3 and KMT2D) in approximately 3.5% of cases analyzed; nearly all instances of complex indels were overlooked (81.1%) or misannotated (17.6%) in previous reports of 2,199 samples. In-frame complex indels are enriched in PIK3R1 and EGFR, whereas frameshifts are prevalent in VHL, GATA3, TP53, ARID1A, PTEN and ATRX. Furthermore, complex indels display strong tissue specificity (such as VHL in kidney cancer samples and GATA3 in breast cancer samples). Finally, structural analyses support findings of previously missed, but potentially druggable, mutations in the EGFR, MET and KIT oncogenes. This study indicates the critical importance of improving complex indel discovery and interpretation in medical research.

AB - Complex insertions and deletions (indels) are formed by simultaneously deleting and inserting DNA fragments of different sizes at a common genomic location. Here we present a systematic analysis of somatic complex indels in the coding sequences of samples from over 8,000 cancer cases using Pindel-C. We discovered 285 complex indels in cancer-associated genes (such as PIK3R1, TP53, ARID1A, GATA3 and KMT2D) in approximately 3.5% of cases analyzed; nearly all instances of complex indels were overlooked (81.1%) or misannotated (17.6%) in previous reports of 2,199 samples. In-frame complex indels are enriched in PIK3R1 and EGFR, whereas frameshifts are prevalent in VHL, GATA3, TP53, ARID1A, PTEN and ATRX. Furthermore, complex indels display strong tissue specificity (such as VHL in kidney cancer samples and GATA3 in breast cancer samples). Finally, structural analyses support findings of previously missed, but potentially druggable, mutations in the EGFR, MET and KIT oncogenes. This study indicates the critical importance of improving complex indel discovery and interpretation in medical research.

UR - https://www.scopus.com/pages/publications/84954401021

U2 - 10.1038/nm.4002

DO - 10.1038/nm.4002

M3 - 文章

C2 - 26657142

AN - SCOPUS:84954401021

SN - 1078-8956

VL - 22

SP - 97

EP - 104

JO - Nature Medicine

JF - Nature Medicine

IS - 1

ER -

Systematic discovery of complex insertions and deletions in human cancers

Abstract

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