The Somatic Mosaicism across Human Tissues Network

The Somatic Mosaicism across Human Tissues Network; Tool and Technology Development; Data Analysis Center (UM1DA058230); Genome Characterization Center; Tissue Procurement Center (U24MH133204); Organizational Center (U24NS132103); National Institutes of Health; University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136); Case Western University – Fulai Jin (UG3NS132061); Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135); Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127); Boston’s Children Hospital – Christopher A. Walsh (UG3NS132138); New York University – Gilad D. Evrony (UG3NS132024); Weill Cornell Medicine – Dan A. Landau (UG3NS132139); University of Utah – Gabor T. Marth (UG3NS132134); Mayo Clinic – Alexej Abyzov (UG3NS132128); Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105); Baylor College of Medicine – Chenghang Zong (UG3NS132132); Stanford University – Alexander E. Urban (UG3NS132146); Boston’s Children Hospital – Sangita Choudhury (UG3NS132144); University of Michigan – Ryan E. Mills (UG3NS132084); New York Genome Center – Soren Germer (UM1DA058236); Washington University – Ting Wang (UM1DA058219); Broad Institute of MIT and Harvard – Kristin G. Ardlie (UM1DA058235); Baylor College of Medicine – Richard A. Gibbs (UM1DA058229); University of Washington and Seattle Children’s Research Institute – James T. Bennett (UM1DA058220)

doi:10.1038/s41586-025-09096-7

The Somatic Mosaicism across Human Tissues Network

The Somatic Mosaicism across Human Tissues Network
, Tool and Technology Development
, Data Analysis Center (UM1DA058230)
, Genome Characterization Center
, Tissue Procurement Center (U24MH133204)
, Organizational Center (U24NS132103)
, National Institutes of Health
, University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136)
, Case Western University – Fulai Jin (UG3NS132061)
, Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135)
, Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127)
, Boston’s Children Hospital – Christopher A. Walsh (UG3NS132138)
, New York University – Gilad D. Evrony (UG3NS132024)
, Weill Cornell Medicine – Dan A. Landau (UG3NS132139)
, University of Utah – Gabor T. Marth (UG3NS132134)
, Mayo Clinic – Alexej Abyzov (UG3NS132128)
, Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105)
, Baylor College of Medicine – Chenghang Zong (UG3NS132132)
, Stanford University – Alexander E. Urban (UG3NS132146)
, Boston’s Children Hospital – Sangita Choudhury (UG3NS132144)

University of Michigan – Ryan E. Mills (UG3NS132084), New York Genome Center – Soren Germer (UM1DA058236), Washington University – Ting Wang (UM1DA058219), Broad Institute of MIT and Harvard – Kristin G. Ardlie (UM1DA058235), Baylor College of Medicine – Richard A. Gibbs (UM1DA058229), University of Washington and Seattle Children’s Research Institute – James T. Bennett (UM1DA058220)

Broad Institute
European Molecular Biology Laboratory
Yonsei University
Boston Children's Hospital
Harvard University
Mayo Clinic Rochester, MN
Washington University St. Louis
Provincial Health Services Authority
University of British Columbia
New York Genome Cente
National Disease Research Interchange
Seattle Children’s Research Institute
University of Washington
Dana-Farber Cancer Institute
University of Maryland, Baltimore
University of Michigan, Ann Arbor
Baylor College of Medicine
New York University
Johns Hopkins University
University of Massachusetts Medical School
Massachusetts General Hospital
Case Western Reserve University
German Cancer Research Center
Cornell University
Brigham and Women’s Hospital
University of Utah
Lieber Institute for Brain Development
Stanford University
Rice University
Van Andel Institute
Brotman Baty Institute for Precision Medicine
Howard Hughes Medical Institute
Yale University
City University of Hong Kong
ConnectLife
National Institutes of Health

Résultats de recherche: Contribution à un journal › Article de synthèse › Revue par des pairs

16 Citations (Scopus)

Résumé

From fertilization onwards, the cells of the human body acquire variations in their DNA sequence, known as somatic mutations. These postzygotic mutations arise from intrinsic errors in DNA replication and repair, as well as from exposure to mutagens. Somatic mutations have been implicated in some diseases, but a fundamental understanding of the frequency, type and patterns of mutations across healthy human tissues has been limited. This is primarily due to the small proportion of cells harbouring specific somatic variants within an individual, making them more challenging to detect than inherited variants. Here we describe the Somatic Mosaicism across Human Tissues Network, which aims to create a reference catalogue of somatic mutations and their clonal patterns across 19 different tissue sites from 150 non-diseased donors and develop new technologies and computational tools to detect somatic mutations and assess their phenotypic consequences, including clonal expansions. This strategy enables a comprehensive examination of the mutational landscape across the human body, and provides a comparison baseline for somatic mutation in diseases. This will lead to a deep understanding of somatic mutations and clonal expansions across the lifespan, as well as their roles in health, in ageing and, by comparison, in diseases.

langue originale	Anglais
Pages (de - à)	47-59
Nombre de pages	13
journal	Nature
Volume	643
Numéro de publication	8070
Les DOIs	https://doi.org/10.1038/s41586-025-09096-7
état	Publié - 3 juil. 2025
Modification externe	Oui

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10.1038/s41586-025-09096-7

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The Somatic Mosaicism across Human Tissues Network, Tool and Technology Development, Data Analysis Center (UM1DA058230), Genome Characterization Center, Tissue Procurement Center (U24MH133204), Organizational Center (U24NS132103), National Institutes of Health, University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136), Case Western University – Fulai Jin (UG3NS132061), Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135), Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127), Boston’s Children Hospital – Christopher A. Walsh (UG3NS132138), New York University – Gilad D. Evrony (UG3NS132024), Weill Cornell Medicine – Dan A. Landau (UG3NS132139), University of Utah – Gabor T. Marth (UG3NS132134), Mayo Clinic – Alexej Abyzov (UG3NS132128), Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105), Baylor College of Medicine – Chenghang Zong (UG3NS132132), Stanford University – Alexander E. Urban (UG3NS132146), ... University of Washington and Seattle Children’s Research Institute – James T. Bennett (UM1DA058220) (2025). The Somatic Mosaicism across Human Tissues Network. Nature, 643(8070), 47-59. https://doi.org/10.1038/s41586-025-09096-7

@article{83bd776123ac48eba359b77673771909,

title = "The Somatic Mosaicism across Human Tissues Network",

abstract = "From fertilization onwards, the cells of the human body acquire variations in their DNA sequence, known as somatic mutations. These postzygotic mutations arise from intrinsic errors in DNA replication and repair, as well as from exposure to mutagens. Somatic mutations have been implicated in some diseases, but a fundamental understanding of the frequency, type and patterns of mutations across healthy human tissues has been limited. This is primarily due to the small proportion of cells harbouring specific somatic variants within an individual, making them more challenging to detect than inherited variants. Here we describe the Somatic Mosaicism across Human Tissues Network, which aims to create a reference catalogue of somatic mutations and their clonal patterns across 19 different tissue sites from 150 non-diseased donors and develop new technologies and computational tools to detect somatic mutations and assess their phenotypic consequences, including clonal expansions. This strategy enables a comprehensive examination of the mutational landscape across the human body, and provides a comparison baseline for somatic mutation in diseases. This will lead to a deep understanding of somatic mutations and clonal expansions across the lifespan, as well as their roles in health, in ageing and, by comparison, in diseases.",

author = "\{The Somatic Mosaicism across Human Tissues Network\} and \{Tool and Technology Development\} and \{Data Analysis Center (UM1DA058230)\} and \{Genome Characterization Center\} and \{Tissue Procurement Center (U24MH133204)\} and \{Organizational Center (U24NS132103)\} and \{National Institutes of Health\} and \{University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136)\} and \{Case Western University – Fulai Jin (UG3NS132061)\} and \{Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135)\} and \{Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127)\} and \{Boston{\textquoteright}s Children Hospital – Christopher A. Walsh (UG3NS132138)\} and \{New York University – Gilad D. Evrony (UG3NS132024)\} and \{Weill Cornell Medicine – Dan A. Landau (UG3NS132139)\} and \{University of Utah – Gabor T. Marth (UG3NS132134)\} and \{Mayo Clinic – Alexej Abyzov (UG3NS132128)\} and \{Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105)\} and \{Baylor College of Medicine – Chenghang Zong (UG3NS132132)\} and \{Stanford University – Alexander E. Urban (UG3NS132146)\} and \{Boston{\textquoteright}s Children Hospital – Sangita Choudhury (UG3NS132144)\} and \{University of Michigan – Ryan E. Mills (UG3NS132084)\} and \{New York Genome Center – Soren Germer (UM1DA058236)\} and \{Washington University – Ting Wang (UM1DA058219)\} and \{Broad Institute of MIT and Harvard – Kristin G. Ardlie (UM1DA058235)\} and \{Baylor College of Medicine – Richard A. Gibbs (UM1DA058229)\} and \{University of Washington and Seattle Children{\textquoteright}s Research Institute – James T. Bennett (UM1DA058220)\} and Coorens, \{Tim H.H.\} and Oh, \{Ji Won\} and Choi, \{Yujin Angelina\} and Lim, \{Nam Seop\} and Boxun Zhao and Adam Voshall and Alexej Abyzov and Lucinda Antonacci-Fulton and Samuel Aparicio and Ardlie, \{Kristin G.\} and Bell, \{Thomas J.\} and Bennett, \{James T.\} and Bernstein, \{Bradley E.\} and Blanchard, \{Thomas G.\} and Boyle, \{Alan P.\} and Buenrostro, \{Jason D.\} and Burns, \{Kathleen H.\} and Fei Chen and Rui Chen and Sangita Choudhury and Doddapaneni, \{Harsha V.\} and Eichler, \{Evan E.\} and Evrony, \{Gilad D.\} and Faith, \{Melissa A.\} and Fazzio, \{Thomas G.\} and Fulton, \{Robert S.\} and Manuel Garber and Nils Gehlenborg and Soren Germer and Gad Getz and Gibbs, \{Richard A.\} and Hernandez, \{Raquel G.\} and Fulai Jin and Korbel, \{Jan O.\} and Landau, \{Dan A.\} and Lawson, \{Heather A.\} and Lennon, \{Niall J.\} and Heng Li and Yan Li and Loh, \{Po Ru\} and Gabor Marth and McConnell, \{Michael J.\} and Mills, \{Ryan E.\} and Montgomery, \{Stephen B.\} and Pradeep Natarajan and Park, \{Peter J.\} and Rahul Satija and Sedlazeck, \{Fritz J.\} and Shao, \{Diane D.\} and Cheng, \{Alexandre Pellan\}",

note = "Publisher Copyright: {\textcopyright} Springer Nature Limited 2025.",

year = "2025",

month = jul,

day = "3",

doi = "10.1038/s41586-025-09096-7",

language = "English",

volume = "643",

pages = "47--59",

journal = "Nature",

issn = "0028-0836",

publisher = "Nature Research",

number = "8070",

}

The Somatic Mosaicism across Human Tissues Network, Tool and Technology Development, Data Analysis Center (UM1DA058230), Genome Characterization Center, Tissue Procurement Center (U24MH133204), Organizational Center (U24NS132103), National Institutes of Health, University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136), Case Western University – Fulai Jin (UG3NS132061), Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135), Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127), Boston’s Children Hospital – Christopher A. Walsh (UG3NS132138), New York University – Gilad D. Evrony (UG3NS132024), Weill Cornell Medicine – Dan A. Landau (UG3NS132139), University of Utah – Gabor T. Marth (UG3NS132134), Mayo Clinic – Alexej Abyzov (UG3NS132128), Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105), Baylor College of Medicine – Chenghang Zong (UG3NS132132), Stanford University – Alexander E. Urban (UG3NS132146), Boston’s Children Hospital – Sangita Choudhury (UG3NS132144), University of Michigan – Ryan E. Mills (UG3NS132084), New York Genome Center – Soren Germer (UM1DA058236), Washington University – Ting Wang (UM1DA058219), Broad Institute of MIT and Harvard – Kristin G. Ardlie (UM1DA058235), Baylor College of Medicine – Richard A. Gibbs (UM1DA058229) & University of Washington and Seattle Children’s Research Institute – James T. Bennett (UM1DA058220) 2025, 'The Somatic Mosaicism across Human Tissues Network', Nature, VOL. 643, Numéro 8070, p. 47-59. https://doi.org/10.1038/s41586-025-09096-7

TY - JOUR

T1 - The Somatic Mosaicism across Human Tissues Network

AU - The Somatic Mosaicism across Human Tissues Network

AU - Tool and Technology Development

AU - Data Analysis Center (UM1DA058230)

AU - Genome Characterization Center

AU - Tissue Procurement Center (U24MH133204)

AU - Organizational Center (U24NS132103)

AU - National Institutes of Health

AU - University of Massachusetts Chan Medical School – Thomas G. Fazzio (UG3NS132136)

AU - Case Western University – Fulai Jin (UG3NS132061)

AU - Broad Institute of MIT and Harvard – Fei Chen (UG3NS132135)

AU - Dana Farber Cancer Institute – Kathleen H. Burns (UG3NS132127)

AU - Boston’s Children Hospital – Christopher A. Walsh (UG3NS132138)

AU - New York University – Gilad D. Evrony (UG3NS132024)

AU - Weill Cornell Medicine – Dan A. Landau (UG3NS132139)

AU - University of Utah – Gabor T. Marth (UG3NS132134)

AU - Mayo Clinic – Alexej Abyzov (UG3NS132128)

AU - Baylor College of Medicine – Fritz J. Sedlazeck (UG3NS132105)

AU - Baylor College of Medicine – Chenghang Zong (UG3NS132132)

AU - Stanford University – Alexander E. Urban (UG3NS132146)

AU - Boston’s Children Hospital – Sangita Choudhury (UG3NS132144)

AU - University of Michigan – Ryan E. Mills (UG3NS132084)

AU - New York Genome Center – Soren Germer (UM1DA058236)

AU - Washington University – Ting Wang (UM1DA058219)

AU - Broad Institute of MIT and Harvard – Kristin G. Ardlie (UM1DA058235)

AU - Baylor College of Medicine – Richard A. Gibbs (UM1DA058229)

AU - University of Washington and Seattle Children’s Research Institute – James T. Bennett (UM1DA058220)

AU - Coorens, Tim H.H.

AU - Oh, Ji Won

AU - Choi, Yujin Angelina

AU - Lim, Nam Seop

AU - Zhao, Boxun

AU - Voshall, Adam

AU - Abyzov, Alexej

AU - Antonacci-Fulton, Lucinda

AU - Aparicio, Samuel

AU - Ardlie, Kristin G.

AU - Bell, Thomas J.

AU - Bennett, James T.

AU - Bernstein, Bradley E.

AU - Blanchard, Thomas G.

AU - Boyle, Alan P.

AU - Buenrostro, Jason D.

AU - Burns, Kathleen H.

AU - Chen, Fei

AU - Chen, Rui

AU - Choudhury, Sangita

AU - Doddapaneni, Harsha V.

AU - Eichler, Evan E.

AU - Evrony, Gilad D.

AU - Faith, Melissa A.

AU - Fazzio, Thomas G.

AU - Fulton, Robert S.

AU - Garber, Manuel

AU - Gehlenborg, Nils

AU - Germer, Soren

AU - Getz, Gad

AU - Gibbs, Richard A.

AU - Hernandez, Raquel G.

AU - Jin, Fulai

AU - Korbel, Jan O.

AU - Landau, Dan A.

AU - Lawson, Heather A.

AU - Lennon, Niall J.

AU - Li, Heng

AU - Li, Yan

AU - Loh, Po Ru

AU - Marth, Gabor

AU - McConnell, Michael J.

AU - Mills, Ryan E.

AU - Montgomery, Stephen B.

AU - Natarajan, Pradeep

AU - Park, Peter J.

AU - Satija, Rahul

AU - Sedlazeck, Fritz J.

AU - Shao, Diane D.

AU - Cheng, Alexandre Pellan

PY - 2025/7/3

Y1 - 2025/7/3

N2 - From fertilization onwards, the cells of the human body acquire variations in their DNA sequence, known as somatic mutations. These postzygotic mutations arise from intrinsic errors in DNA replication and repair, as well as from exposure to mutagens. Somatic mutations have been implicated in some diseases, but a fundamental understanding of the frequency, type and patterns of mutations across healthy human tissues has been limited. This is primarily due to the small proportion of cells harbouring specific somatic variants within an individual, making them more challenging to detect than inherited variants. Here we describe the Somatic Mosaicism across Human Tissues Network, which aims to create a reference catalogue of somatic mutations and their clonal patterns across 19 different tissue sites from 150 non-diseased donors and develop new technologies and computational tools to detect somatic mutations and assess their phenotypic consequences, including clonal expansions. This strategy enables a comprehensive examination of the mutational landscape across the human body, and provides a comparison baseline for somatic mutation in diseases. This will lead to a deep understanding of somatic mutations and clonal expansions across the lifespan, as well as their roles in health, in ageing and, by comparison, in diseases.

AB - From fertilization onwards, the cells of the human body acquire variations in their DNA sequence, known as somatic mutations. These postzygotic mutations arise from intrinsic errors in DNA replication and repair, as well as from exposure to mutagens. Somatic mutations have been implicated in some diseases, but a fundamental understanding of the frequency, type and patterns of mutations across healthy human tissues has been limited. This is primarily due to the small proportion of cells harbouring specific somatic variants within an individual, making them more challenging to detect than inherited variants. Here we describe the Somatic Mosaicism across Human Tissues Network, which aims to create a reference catalogue of somatic mutations and their clonal patterns across 19 different tissue sites from 150 non-diseased donors and develop new technologies and computational tools to detect somatic mutations and assess their phenotypic consequences, including clonal expansions. This strategy enables a comprehensive examination of the mutational landscape across the human body, and provides a comparison baseline for somatic mutation in diseases. This will lead to a deep understanding of somatic mutations and clonal expansions across the lifespan, as well as their roles in health, in ageing and, by comparison, in diseases.

UR - https://www.scopus.com/pages/publications/105010500373

U2 - 10.1038/s41586-025-09096-7

DO - 10.1038/s41586-025-09096-7

M3 - Review Article

C2 - 40604182

AN - SCOPUS:105010500373

SN - 0028-0836

VL - 643

SP - 47

EP - 59

JO - Nature

JF - Nature

IS - 8070

ER -

The Somatic Mosaicism across Human Tissues Network

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