Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung

Seung Hyun Jung; Min Sung Kim; Sung Hak Lee; Hyun Chun Park; Hyun Joo Choi; Leeso Maeng; Ki Ouk Min; Jeana Kim; Tae In Park; Ok Ran Shin; Tae Jung Kim; Haidong Xu; Kyo Young Lee; Tae Min Kim; Sang Yong Song; Charles Lee; Yeun Jun Chung; Sug Hyung Lee

doi:10.1073/pnas.1606946113

Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung

Seung Hyun Jung
, Min Sung Kim
, Sung Hak Lee
, Hyun Chun Park
, Hyun Joo Choi
, Leeso Maeng
, Ki Ouk Min
, Jeana Kim
, Tae In Park
, Ok Ran Shin
, Tae Jung Kim
, Haidong Xu
, Kyo Young Lee
, Tae Min Kim
, Sang Yong Song
, Charles Lee
, Yeun Jun Chung
, Sug Hyung Lee

The Catholic University of Korea
Kyungpook National University
Yanbian University
Sungkyunkwan University
Jackson Laboratory
Ewha Womans University

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

49 Scopus citations

Abstract

Pulmonary sclerosing hemangioma (PSH) is a benign tumor with two cell populations (epithelial and stromal cells), for which genomic profiles remain unknown. We conducted exome sequencing of 44 PSHs and identified recurrent somatic mutations of AKT1 (43.2%) and β-catenin (4.5%). We used a second subset of 24 PSHs to confirm the high frequency of AKT1 mutations (overall 31/68, 45.6%; p.E17K, 33.8%) and recurrent β-catenin mutations (overall 3 of 68, 4.4%). Of the PSHs without AKT1 mutations, two exhibited AKT1 copy gain. AKT1 mutations existed in both epithelial and stromal cells. In two separate PSHs from one patient, we observed two different AKT1 mutations, indicating they were not disseminated but independent arising tumors. Because the AKT1 mutations were not found to cooccur with β-catenin mutations (or any other known driver alterations) in any of the PSHs studied, we speculate that this may be the single-most common driver alteration to develop PSHs. Our study revealed genomic differences between PSHs and lung adenocarcinomas, including a high rate of AKT1 mutation in PSHs. These genomic features of PSH identified in the present study provide clues to understanding the biology of PSH and for differential genomic diagnosis of lung tumors.

Original language	English
Pages (from-to)	10672-10677
Number of pages	6
Journal	Proceedings of the National Academy of Sciences of the United States of America
Volume	113
Issue number	38
DOIs	https://doi.org/10.1073/pnas.1606946113
State	Published - 20 Sep 2016

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Publisher Copyright:
© 2016, National Academy of Sciences. All rights reserved.

Keywords

AKT1 mutation
Copy number alteration
Pulmonary sclerosing hemangioma
Whole-exome sequencing

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10.1073/pnas.1606946113

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Jung, S. H., Kim, M. S., Lee, S. H., Park, H. C., Choi, H. J., Maeng, L., Min, K. O., Kim, J., Park, T. I., Shin, O. R., Kim, T. J., Xu, H., Lee, K. Y., Kim, T. M., Song, S. Y., Lee, C., Chung, Y. J., & Lee, S. H. (2016). Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung. Proceedings of the National Academy of Sciences of the United States of America, 113(38), 10672-10677. https://doi.org/10.1073/pnas.1606946113

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title = "Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung",

abstract = "Pulmonary sclerosing hemangioma (PSH) is a benign tumor with two cell populations (epithelial and stromal cells), for which genomic profiles remain unknown. We conducted exome sequencing of 44 PSHs and identified recurrent somatic mutations of AKT1 (43.2\%) and β-catenin (4.5\%). We used a second subset of 24 PSHs to confirm the high frequency of AKT1 mutations (overall 31/68, 45.6\%; p.E17K, 33.8\%) and recurrent β-catenin mutations (overall 3 of 68, 4.4\%). Of the PSHs without AKT1 mutations, two exhibited AKT1 copy gain. AKT1 mutations existed in both epithelial and stromal cells. In two separate PSHs from one patient, we observed two different AKT1 mutations, indicating they were not disseminated but independent arising tumors. Because the AKT1 mutations were not found to cooccur with β-catenin mutations (or any other known driver alterations) in any of the PSHs studied, we speculate that this may be the single-most common driver alteration to develop PSHs. Our study revealed genomic differences between PSHs and lung adenocarcinomas, including a high rate of AKT1 mutation in PSHs. These genomic features of PSH identified in the present study provide clues to understanding the biology of PSH and for differential genomic diagnosis of lung tumors.",

keywords = "AKT1 mutation, Copy number alteration, Pulmonary sclerosing hemangioma, Whole-exome sequencing",

author = "Jung, \{Seung Hyun\} and Kim, \{Min Sung\} and Lee, \{Sung Hak\} and Park, \{Hyun Chun\} and Choi, \{Hyun Joo\} and Leeso Maeng and Min, \{Ki Ouk\} and Jeana Kim and Park, \{Tae In\} and Shin, \{Ok Ran\} and Kim, \{Tae Jung\} and Haidong Xu and Lee, \{Kyo Young\} and Kim, \{Tae Min\} and Song, \{Sang Yong\} and Charles Lee and Chung, \{Yeun Jun\} and Lee, \{Sug Hyung\}",

year = "2016",

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doi = "10.1073/pnas.1606946113",

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Jung, SH, Kim, MS, Lee, SH, Park, HC, Choi, HJ, Maeng, L, Min, KO, Kim, J, Park, TI, Shin, OR, Kim, TJ, Xu, H, Lee, KY, Kim, TM, Song, SY, Lee, C, Chung, YJ & Lee, SH 2016, 'Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung', Proceedings of the National Academy of Sciences of the United States of America, vol. 113, no. 38, pp. 10672-10677. https://doi.org/10.1073/pnas.1606946113

TY - JOUR

T1 - Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung

AU - Jung, Seung Hyun

AU - Kim, Min Sung

AU - Lee, Sung Hak

AU - Park, Hyun Chun

AU - Choi, Hyun Joo

AU - Maeng, Leeso

AU - Min, Ki Ouk

AU - Kim, Jeana

AU - Park, Tae In

AU - Shin, Ok Ran

AU - Kim, Tae Jung

AU - Xu, Haidong

AU - Lee, Kyo Young

AU - Kim, Tae Min

AU - Song, Sang Yong

AU - Lee, Charles

AU - Chung, Yeun Jun

AU - Lee, Sug Hyung

PY - 2016/9/20

Y1 - 2016/9/20

N2 - Pulmonary sclerosing hemangioma (PSH) is a benign tumor with two cell populations (epithelial and stromal cells), for which genomic profiles remain unknown. We conducted exome sequencing of 44 PSHs and identified recurrent somatic mutations of AKT1 (43.2%) and β-catenin (4.5%). We used a second subset of 24 PSHs to confirm the high frequency of AKT1 mutations (overall 31/68, 45.6%; p.E17K, 33.8%) and recurrent β-catenin mutations (overall 3 of 68, 4.4%). Of the PSHs without AKT1 mutations, two exhibited AKT1 copy gain. AKT1 mutations existed in both epithelial and stromal cells. In two separate PSHs from one patient, we observed two different AKT1 mutations, indicating they were not disseminated but independent arising tumors. Because the AKT1 mutations were not found to cooccur with β-catenin mutations (or any other known driver alterations) in any of the PSHs studied, we speculate that this may be the single-most common driver alteration to develop PSHs. Our study revealed genomic differences between PSHs and lung adenocarcinomas, including a high rate of AKT1 mutation in PSHs. These genomic features of PSH identified in the present study provide clues to understanding the biology of PSH and for differential genomic diagnosis of lung tumors.

AB - Pulmonary sclerosing hemangioma (PSH) is a benign tumor with two cell populations (epithelial and stromal cells), for which genomic profiles remain unknown. We conducted exome sequencing of 44 PSHs and identified recurrent somatic mutations of AKT1 (43.2%) and β-catenin (4.5%). We used a second subset of 24 PSHs to confirm the high frequency of AKT1 mutations (overall 31/68, 45.6%; p.E17K, 33.8%) and recurrent β-catenin mutations (overall 3 of 68, 4.4%). Of the PSHs without AKT1 mutations, two exhibited AKT1 copy gain. AKT1 mutations existed in both epithelial and stromal cells. In two separate PSHs from one patient, we observed two different AKT1 mutations, indicating they were not disseminated but independent arising tumors. Because the AKT1 mutations were not found to cooccur with β-catenin mutations (or any other known driver alterations) in any of the PSHs studied, we speculate that this may be the single-most common driver alteration to develop PSHs. Our study revealed genomic differences between PSHs and lung adenocarcinomas, including a high rate of AKT1 mutation in PSHs. These genomic features of PSH identified in the present study provide clues to understanding the biology of PSH and for differential genomic diagnosis of lung tumors.

KW - AKT1 mutation

KW - Copy number alteration

KW - Pulmonary sclerosing hemangioma

KW - Whole-exome sequencing

UR - https://www.scopus.com/pages/publications/84988640257

U2 - 10.1073/pnas.1606946113

DO - 10.1073/pnas.1606946113

M3 - Article

C2 - 27601661

AN - SCOPUS:84988640257

SN - 0027-8424

VL - 113

SP - 10672

EP - 10677

JO - Proceedings of the National Academy of Sciences of the United States of America

JF - Proceedings of the National Academy of Sciences of the United States of America

IS - 38

ER -

Whole-exome sequencing identifies recurrent AKT1 mutations in sclerosing hemangioma of lung

Abstract

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Keywords

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