Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets

Benjamin A. Nacev; Francisco Sanchez-Vega; Shaleigh A. Smith; Cristina R. Antonescu; Evan Rosenbaum; Hongyu Shi; Cerise Tang; Nicholas D. Socci; Satshil Rana; Rodrigo Gularte-Mérida; Ahmet Zehir; Mrinal M. Gounder; Timothy G. Bowler; Anisha Luthra; Bhumika Jadeja; Azusa Okada; Jonathan A. Strong; Jake Stoller; Jason E. Chan; Ping Chi; Sandra P. D’Angelo; Mark A. Dickson; Ciara M. Kelly; Mary Louise Keohan; Sujana Movva; Katherine Thornton; Paul A. Meyers; Leonard H. Wexler; Emily K. Slotkin; Julia L. Glade Bender; Neerav N. Shukla; Martee L. Hensley; John H. Healey; Michael P. La Quaglia; Kaled M. Alektiar; Aimee M. Crago; Sam S. Yoon; Brian R. Untch; Sarah Chiang; Narasimhan P. Agaram; Meera R. Hameed; Michael F. Berger; David B. Solit; Nikolaus Schultz; Marc Ladanyi; Samuel Singer; William D. Tap

doi:10.1038/s41467-022-30453-x

Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets

Benjamin A. Nacev
, Francisco Sanchez-Vega
, Shaleigh A. Smith
, Cristina R. Antonescu
, Evan Rosenbaum
, Hongyu Shi
, Cerise Tang
, Nicholas D. Socci
, Satshil Rana
, Rodrigo Gularte-Mérida
, Ahmet Zehir
, Mrinal M. Gounder
, Timothy G. Bowler
, Anisha Luthra
, Bhumika Jadeja
, Azusa Okada
, Jonathan A. Strong
, Jake Stoller
, Jason E. Chan
, Ping Chi

Sandra P. D’Angelo, Mark A. Dickson, Ciara M. Kelly, Mary Louise Keohan, Sujana Movva, Katherine Thornton, Paul A. Meyers, Leonard H. Wexler, Emily K. Slotkin, Julia L. Glade Bender, Neerav N. Shukla, Martee L. Hensley, John H. Healey, Michael P. La Quaglia, Kaled M. Alektiar, Aimee M. Crago, Sam S. Yoon, Brian R. Untch, Sarah Chiang, Narasimhan P. Agaram, Meera R. Hameed, Michael F. Berger, David B. Solit, Nikolaus Schultz, Marc Ladanyi, Samuel Singer, William D. Tap

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

175 Scopus citations

Abstract

The genetic, biologic, and clinical heterogeneity of sarcomas poses a challenge for the identification of therapeutic targets, clinical research, and advancing patient care. Because there are > 100 sarcoma subtypes, in-depth genetic studies have focused on one or a few subtypes. Herein, we report a comparative genetic analysis of 2,138 sarcomas representing 45 pathological entities. This cohort is prospectively analyzed using targeted sequencing to characterize subtype-specific somatic alterations in targetable pathways, rates of whole genome doubling, mutational signatures, and subtype-agnostic genomic clusters. The most common alterations are in cell cycle control and TP53, receptor tyrosine kinases/PI3K/RAS, and epigenetic regulators. Subtype-specific associations include TERT amplification in intimal sarcoma and SWI/SNF alterations in uterine adenosarcoma. Tumor mutational burden, while low compared to other cancers, varies between and within subtypes. This resource will improve sarcoma models, motivate studies of subtype-specific alterations, and inform investigations of genetic factors and their correlations with treatment response.

Original language	English (US)
Article number	3405
Journal	Nature communications
Volume	13
Issue number	1
DOIs	https://doi.org/10.1038/s41467-022-30453-x
State	Published - Dec 2022
Externally published	Yes

ASJC Scopus subject areas

General Chemistry
General Biochemistry, Genetics and Molecular Biology
General
General Physics and Astronomy

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Nacev, B. A., Sanchez-Vega, F., Smith, S. A., Antonescu, C. R., Rosenbaum, E., Shi, H., Tang, C., Socci, N. D., Rana, S., Gularte-Mérida, R., Zehir, A., Gounder, M. M., Bowler, T. G., Luthra, A., Jadeja, B., Okada, A., Strong, J. A., Stoller, J., Chan, J. E., ... Tap, W. D. (2022). Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets. Nature communications, 13(1), Article 3405. https://doi.org/10.1038/s41467-022-30453-x

Nacev, BA, Sanchez-Vega, F, Smith, SA, Antonescu, CR, Rosenbaum, E, Shi, H, Tang, C, Socci, ND, Rana, S, Gularte-Mérida, R, Zehir, A, Gounder, MM, Bowler, TG, Luthra, A, Jadeja, B, Okada, A, Strong, JA, Stoller, J, Chan, JE, Chi, P, D’Angelo, SP, Dickson, MA, Kelly, CM, Keohan, ML, Movva, S, Thornton, K, Meyers, PA, Wexler, LH, Slotkin, EK, Glade Bender, JL, Shukla, NN, Hensley, ML, Healey, JH, La Quaglia, MP, Alektiar, KM, Crago, AM, Yoon, SS, Untch, BR, Chiang, S, Agaram, NP, Hameed, MR, Berger, MF, Solit, DB, Schultz, N, Ladanyi, M, Singer, S & Tap, WD 2022, 'Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets', Nature communications, vol. 13, no. 1, 3405. https://doi.org/10.1038/s41467-022-30453-x

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title = "Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets",

abstract = "The genetic, biologic, and clinical heterogeneity of sarcomas poses a challenge for the identification of therapeutic targets, clinical research, and advancing patient care. Because there are > 100 sarcoma subtypes, in-depth genetic studies have focused on one or a few subtypes. Herein, we report a comparative genetic analysis of 2,138 sarcomas representing 45 pathological entities. This cohort is prospectively analyzed using targeted sequencing to characterize subtype-specific somatic alterations in targetable pathways, rates of whole genome doubling, mutational signatures, and subtype-agnostic genomic clusters. The most common alterations are in cell cycle control and TP53, receptor tyrosine kinases/PI3K/RAS, and epigenetic regulators. Subtype-specific associations include TERT amplification in intimal sarcoma and SWI/SNF alterations in uterine adenosarcoma. Tumor mutational burden, while low compared to other cancers, varies between and within subtypes. This resource will improve sarcoma models, motivate studies of subtype-specific alterations, and inform investigations of genetic factors and their correlations with treatment response.",

author = "Nacev, \{Benjamin A.\} and Francisco Sanchez-Vega and Smith, \{Shaleigh A.\} and Antonescu, \{Cristina R.\} and Evan Rosenbaum and Hongyu Shi and Cerise Tang and Socci, \{Nicholas D.\} and Satshil Rana and Rodrigo Gularte-M{\'e}rida and Ahmet Zehir and Gounder, \{Mrinal M.\} and Bowler, \{Timothy G.\} and Anisha Luthra and Bhumika Jadeja and Azusa Okada and Strong, \{Jonathan A.\} and Jake Stoller and Chan, \{Jason E.\} and Ping Chi and D{\textquoteright}Angelo, \{Sandra P.\} and Dickson, \{Mark A.\} and Kelly, \{Ciara M.\} and Keohan, \{Mary Louise\} and Sujana Movva and Katherine Thornton and Meyers, \{Paul A.\} and Wexler, \{Leonard H.\} and Slotkin, \{Emily K.\} and \{Glade Bender\}, \{Julia L.\} and Shukla, \{Neerav N.\} and Hensley, \{Martee L.\} and Healey, \{John H.\} and \{La Quaglia\}, \{Michael P.\} and Alektiar, \{Kaled M.\} and Crago, \{Aimee M.\} and Yoon, \{Sam S.\} and Untch, \{Brian R.\} and Sarah Chiang and Agaram, \{Narasimhan P.\} and Hameed, \{Meera R.\} and Berger, \{Michael F.\} and Solit, \{David B.\} and Nikolaus Schultz and Marc Ladanyi and Samuel Singer and Tap, \{William D.\}",

note = "Publisher Copyright: {\textcopyright} 2022, The Author(s).",

year = "2022",

month = dec,

doi = "10.1038/s41467-022-30453-x",

language = "English (US)",

volume = "13",

journal = "Nature communications",

issn = "2041-1723",

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T1 - Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets

AU - Nacev, Benjamin A.

AU - Sanchez-Vega, Francisco

AU - Smith, Shaleigh A.

AU - Antonescu, Cristina R.

AU - Rosenbaum, Evan

AU - Shi, Hongyu

AU - Tang, Cerise

AU - Socci, Nicholas D.

AU - Rana, Satshil

AU - Gularte-Mérida, Rodrigo

AU - Zehir, Ahmet

AU - Gounder, Mrinal M.

AU - Bowler, Timothy G.

AU - Luthra, Anisha

AU - Jadeja, Bhumika

AU - Okada, Azusa

AU - Strong, Jonathan A.

AU - Stoller, Jake

AU - Chan, Jason E.

AU - Chi, Ping

AU - D’Angelo, Sandra P.

AU - Dickson, Mark A.

AU - Kelly, Ciara M.

AU - Keohan, Mary Louise

AU - Movva, Sujana

AU - Thornton, Katherine

AU - Meyers, Paul A.

AU - Wexler, Leonard H.

AU - Slotkin, Emily K.

AU - Glade Bender, Julia L.

AU - Shukla, Neerav N.

AU - Hensley, Martee L.

AU - Healey, John H.

AU - La Quaglia, Michael P.

AU - Alektiar, Kaled M.

AU - Crago, Aimee M.

AU - Yoon, Sam S.

AU - Untch, Brian R.

AU - Chiang, Sarah

AU - Agaram, Narasimhan P.

AU - Hameed, Meera R.

AU - Berger, Michael F.

AU - Solit, David B.

AU - Schultz, Nikolaus

AU - Ladanyi, Marc

AU - Singer, Samuel

AU - Tap, William D.

PY - 2022/12

Y1 - 2022/12

N2 - The genetic, biologic, and clinical heterogeneity of sarcomas poses a challenge for the identification of therapeutic targets, clinical research, and advancing patient care. Because there are > 100 sarcoma subtypes, in-depth genetic studies have focused on one or a few subtypes. Herein, we report a comparative genetic analysis of 2,138 sarcomas representing 45 pathological entities. This cohort is prospectively analyzed using targeted sequencing to characterize subtype-specific somatic alterations in targetable pathways, rates of whole genome doubling, mutational signatures, and subtype-agnostic genomic clusters. The most common alterations are in cell cycle control and TP53, receptor tyrosine kinases/PI3K/RAS, and epigenetic regulators. Subtype-specific associations include TERT amplification in intimal sarcoma and SWI/SNF alterations in uterine adenosarcoma. Tumor mutational burden, while low compared to other cancers, varies between and within subtypes. This resource will improve sarcoma models, motivate studies of subtype-specific alterations, and inform investigations of genetic factors and their correlations with treatment response.

AB - The genetic, biologic, and clinical heterogeneity of sarcomas poses a challenge for the identification of therapeutic targets, clinical research, and advancing patient care. Because there are > 100 sarcoma subtypes, in-depth genetic studies have focused on one or a few subtypes. Herein, we report a comparative genetic analysis of 2,138 sarcomas representing 45 pathological entities. This cohort is prospectively analyzed using targeted sequencing to characterize subtype-specific somatic alterations in targetable pathways, rates of whole genome doubling, mutational signatures, and subtype-agnostic genomic clusters. The most common alterations are in cell cycle control and TP53, receptor tyrosine kinases/PI3K/RAS, and epigenetic regulators. Subtype-specific associations include TERT amplification in intimal sarcoma and SWI/SNF alterations in uterine adenosarcoma. Tumor mutational burden, while low compared to other cancers, varies between and within subtypes. This resource will improve sarcoma models, motivate studies of subtype-specific alterations, and inform investigations of genetic factors and their correlations with treatment response.

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UR - https://www.scopus.com/pages/publications/85132079935#tab=citedBy

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DO - 10.1038/s41467-022-30453-x

M3 - Article

C2 - 35705560

AN - SCOPUS:85132079935

SN - 2041-1723

VL - 13

JO - Nature communications

JF - Nature communications

IS - 1

M1 - 3405

ER -

Clinical sequencing of soft tissue and bone sarcomas delineates diverse genomic landscapes and potential therapeutic targets

Abstract

ASJC Scopus subject areas

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