Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival

Nathaniel D. Anderson; Yael Babichev; Fabio Fuligni; Federico Comitani; Mehdi Layeghifard; Rosemarie E. Venier; Stefan C. Dentro; Anant Maheshwari; Sheena Guram; Claire Wunker; J. Drew Thompson; Kyoko E. Yuki; Huayun Hou; Matthew Zatzman; Nicholas Light; Marcus Q. Bernardini; Jay S. Wunder; Irene L. Andrulis; Peter Ferguson; Albiruni R.Abdul Razak; Carol J. Swallow; James J. Dowling; Rima S. Al-Awar; Richard Marcellus; Marjan Rouzbahman; Moritz Gerstung; Daniel Durocher; Ludmil B. Alexandrov; Brendan C. Dickson; Rebecca A. Gladdy; Adam Shlien

doi:10.1038/s41467-021-24677-6

Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival

Nathaniel D. Anderson, Yael Babichev, Fabio Fuligni, Federico Comitani, Mehdi Layeghifard, Rosemarie E. Venier, Stefan C. Dentro, Anant Maheshwari, Sheena Guram, Claire Wunker, J. Drew Thompson, Kyoko E. Yuki, Huayun Hou, Matthew Zatzman, Nicholas Light, Marcus Q. Bernardini, Jay S. Wunder, Irene L. Andrulis, Peter Ferguson, Albiruni R.Abdul RazakCarol J. Swallow, James J. Dowling, Rima S. Al-Awar, Richard Marcellus, Marjan Rouzbahman, Moritz Gerstung, Daniel Durocher, Ludmil B. Alexandrov, Brendan C. Dickson, Rebecca A. Gladdy, Adam Shlien

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

48 Scopus citations

Abstract

Leiomyosarcomas (LMS) are genetically heterogeneous tumors differentiating along smooth muscle lines. Currently, LMS treatment is not informed by molecular subtyping and is associated with highly variable survival. While disease site continues to dictate clinical management, the contribution of genetic factors to LMS subtype, origins, and timing are unknown. Here we analyze 70 genomes and 130 transcriptomes of LMS, including multiple tumor regions and paired metastases. Molecular profiling highlight the very early origins of LMS. We uncover three specific subtypes of LMS that likely develop from distinct lineages of smooth muscle cells. Of these, dedifferentiated LMS with high immune infiltration and tumors primarily of gynecological origin harbor genomic dystrophin deletions and/or loss of dystrophin expression, acquire the highest burden of genomic mutation, and are associated with worse survival. Homologous recombination defects lead to genome-wide mutational signatures, and a corresponding sensitivity to PARP trappers and other DNA damage response inhibitors, suggesting a promising therapeutic strategy for LMS. Finally, by phylogenetic reconstruction, we present evidence that clones seeding lethal metastases arise decades prior to LMS diagnosis.

Original language	English
Article number	4496
Journal	Nature Communications
Volume	12
Issue number	1
DOIs	https://doi.org/10.1038/s41467-021-24677-6
State	Published - 1 Dec 2021
Externally published	Yes

ASJC Scopus subject areas

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

UN SDGs

This output contributes to the following UN Sustainable Development Goals (SDGs)

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10.1038/s41467-021-24677-6

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Anderson, N. D., Babichev, Y., Fuligni, F., Comitani, F., Layeghifard, M., Venier, R. E., Dentro, S. C., Maheshwari, A., Guram, S., Wunker, C., Thompson, J. D., Yuki, K. E., Hou, H., Zatzman, M., Light, N., Bernardini, M. Q., Wunder, J. S., Andrulis, I. L., Ferguson, P., ... Shlien, A. (2021). Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival. Nature Communications, 12(1), Article 4496. https://doi.org/10.1038/s41467-021-24677-6

@article{58f414febb5445a5a15cbfabeec06e46,

title = "Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival",

abstract = "Leiomyosarcomas (LMS) are genetically heterogeneous tumors differentiating along smooth muscle lines. Currently, LMS treatment is not informed by molecular subtyping and is associated with highly variable survival. While disease site continues to dictate clinical management, the contribution of genetic factors to LMS subtype, origins, and timing are unknown. Here we analyze 70 genomes and 130 transcriptomes of LMS, including multiple tumor regions and paired metastases. Molecular profiling highlight the very early origins of LMS. We uncover three specific subtypes of LMS that likely develop from distinct lineages of smooth muscle cells. Of these, dedifferentiated LMS with high immune infiltration and tumors primarily of gynecological origin harbor genomic dystrophin deletions and/or loss of dystrophin expression, acquire the highest burden of genomic mutation, and are associated with worse survival. Homologous recombination defects lead to genome-wide mutational signatures, and a corresponding sensitivity to PARP trappers and other DNA damage response inhibitors, suggesting a promising therapeutic strategy for LMS. Finally, by phylogenetic reconstruction, we present evidence that clones seeding lethal metastases arise decades prior to LMS diagnosis.",

author = "Anderson, \{Nathaniel D.\} and Yael Babichev and Fabio Fuligni and Federico Comitani and Mehdi Layeghifard and Venier, \{Rosemarie E.\} and Dentro, \{Stefan C.\} and Anant Maheshwari and Sheena Guram and Claire Wunker and Thompson, \{J. Drew\} and Yuki, \{Kyoko E.\} and Huayun Hou and Matthew Zatzman and Nicholas Light and Bernardini, \{Marcus Q.\} and Wunder, \{Jay S.\} and Andrulis, \{Irene L.\} and Peter Ferguson and Razak, \{Albiruni R.Abdul\} and Swallow, \{Carol J.\} and Dowling, \{James J.\} and Al-Awar, \{Rima S.\} and Richard Marcellus and Marjan Rouzbahman and Moritz Gerstung and Daniel Durocher and Alexandrov, \{Ludmil B.\} and Dickson, \{Brendan C.\} and Gladdy, \{Rebecca A.\} and Adam Shlien",

note = "Publisher Copyright: {\textcopyright} 2021, The Author(s).",

year = "2021",

month = dec,

day = "1",

doi = "10.1038/s41467-021-24677-6",

language = "English",

volume = "12",

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Anderson, ND, Babichev, Y, Fuligni, F, Comitani, F, Layeghifard, M, Venier, RE, Dentro, SC, Maheshwari, A, Guram, S, Wunker, C, Thompson, JD, Yuki, KE, Hou, H, Zatzman, M, Light, N, Bernardini, MQ, Wunder, JS, Andrulis, IL, Ferguson, P, Razak, ARA, Swallow, CJ, Dowling, JJ, Al-Awar, RS, Marcellus, R, Rouzbahman, M, Gerstung, M, Durocher, D, Alexandrov, LB, Dickson, BC, Gladdy, RA & Shlien, A 2021, 'Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival', Nature Communications, vol. 12, no. 1, 4496. https://doi.org/10.1038/s41467-021-24677-6

TY - JOUR

T1 - Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival

AU - Anderson, Nathaniel D.

AU - Babichev, Yael

AU - Fuligni, Fabio

AU - Comitani, Federico

AU - Layeghifard, Mehdi

AU - Venier, Rosemarie E.

AU - Dentro, Stefan C.

AU - Maheshwari, Anant

AU - Guram, Sheena

AU - Wunker, Claire

AU - Thompson, J. Drew

AU - Yuki, Kyoko E.

AU - Hou, Huayun

AU - Zatzman, Matthew

AU - Light, Nicholas

AU - Bernardini, Marcus Q.

AU - Wunder, Jay S.

AU - Andrulis, Irene L.

AU - Ferguson, Peter

AU - Razak, Albiruni R.Abdul

AU - Swallow, Carol J.

AU - Dowling, James J.

AU - Al-Awar, Rima S.

AU - Marcellus, Richard

AU - Rouzbahman, Marjan

AU - Gerstung, Moritz

AU - Durocher, Daniel

AU - Alexandrov, Ludmil B.

AU - Dickson, Brendan C.

AU - Gladdy, Rebecca A.

AU - Shlien, Adam

PY - 2021/12/1

Y1 - 2021/12/1

N2 - Leiomyosarcomas (LMS) are genetically heterogeneous tumors differentiating along smooth muscle lines. Currently, LMS treatment is not informed by molecular subtyping and is associated with highly variable survival. While disease site continues to dictate clinical management, the contribution of genetic factors to LMS subtype, origins, and timing are unknown. Here we analyze 70 genomes and 130 transcriptomes of LMS, including multiple tumor regions and paired metastases. Molecular profiling highlight the very early origins of LMS. We uncover three specific subtypes of LMS that likely develop from distinct lineages of smooth muscle cells. Of these, dedifferentiated LMS with high immune infiltration and tumors primarily of gynecological origin harbor genomic dystrophin deletions and/or loss of dystrophin expression, acquire the highest burden of genomic mutation, and are associated with worse survival. Homologous recombination defects lead to genome-wide mutational signatures, and a corresponding sensitivity to PARP trappers and other DNA damage response inhibitors, suggesting a promising therapeutic strategy for LMS. Finally, by phylogenetic reconstruction, we present evidence that clones seeding lethal metastases arise decades prior to LMS diagnosis.

AB - Leiomyosarcomas (LMS) are genetically heterogeneous tumors differentiating along smooth muscle lines. Currently, LMS treatment is not informed by molecular subtyping and is associated with highly variable survival. While disease site continues to dictate clinical management, the contribution of genetic factors to LMS subtype, origins, and timing are unknown. Here we analyze 70 genomes and 130 transcriptomes of LMS, including multiple tumor regions and paired metastases. Molecular profiling highlight the very early origins of LMS. We uncover three specific subtypes of LMS that likely develop from distinct lineages of smooth muscle cells. Of these, dedifferentiated LMS with high immune infiltration and tumors primarily of gynecological origin harbor genomic dystrophin deletions and/or loss of dystrophin expression, acquire the highest burden of genomic mutation, and are associated with worse survival. Homologous recombination defects lead to genome-wide mutational signatures, and a corresponding sensitivity to PARP trappers and other DNA damage response inhibitors, suggesting a promising therapeutic strategy for LMS. Finally, by phylogenetic reconstruction, we present evidence that clones seeding lethal metastases arise decades prior to LMS diagnosis.

UR - https://www.scopus.com/pages/publications/85111158920

U2 - 10.1038/s41467-021-24677-6

DO - 10.1038/s41467-021-24677-6

M3 - Article

C2 - 34301934

AN - SCOPUS:85111158920

SN - 2041-1723

VL - 12

JO - Nature Communications

JF - Nature Communications

IS - 1

M1 - 4496

ER -

Lineage-defined leiomyosarcoma subtypes emerge years before diagnosis and determine patient survival

Abstract

ASJC Scopus subject areas

UN SDGs

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