The Origin and Evolution of Mutations in Acute Myeloid Leukemia | Zendy

John S. Welch | Zendy; Timothy J. Ley | Zendy; Daniel C. Link | Zendy; Christopher A. Miller | Zendy; David E. Larson | Zendy; Daniel C. Koboldt | Zendy; Lukas D. Wartman | Zendy; Tamara Lamprecht | Zendy; Fulu Liu | Zendy; Jun Xia | Zendy; Cyriac Kandoth | Zendy; Robert S. Fulton | Zendy; Michael D. McLellan | Zendy; David J. Dooling | Zendy; John W. Wallis | Zendy; Ken Chen | Zendy; Christopher Harris | Zendy; Heather K. Schmidt | Zendy; Joelle Kalicki-Veizer | Zendy; Charles Lu | Zendy; Qunyuan Zhang | Zendy; Ling Lin | Zendy; Michelle D. O’Laughlin | Zendy; Joshua F. McMichael | Zendy; Kim D. Delehaunty | Zendy; Lucinda A. Fulton | Zendy; Vincent Magrini | Zendy; Sean McGrath | Zendy; Ryan Demeter | Zendy; Tammi L. Vickery | Zendy; Jasreet Hundal | Zendy; Lisa L. Cook | Zendy; Gary W. Swift | Zendy; Jerry P. Reed | Zendy; Patricia A. Alldredge | Zendy; Todd Wylie | Zendy; Jason Walker | Zendy; Mark A. Watson | Zendy; Sharon E. Heath | Zendy; William D. Shan | Zendy; Nobish Varghese | Zendy; Rakesh Nagarajan | Zendy; Jacqueline E. Payton | Zendy; Jack Baty | Zendy; Shashikant Kulkarni | Zendy; Jeffery M. Klco | Zendy; Michael H. Tomasson | Zendy; Peter Westervelt | Zendy; Matthew J. Walter | Zendy; Timothy A. Graubert | Zendy; John F. DiPersio | Zendy; Li Ding | Zendy; Elaine R. Mardis | Zendy; Richard K. Wilson | Zendy

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The Origin and Evolution of Mutations in Acute Myeloid Leukemia

Author(s) -

John S. Welch,

Timothy J. Ley,

Daniel C. Link,

Christopher A. Miller,

David E. Larson,

Daniel C. Koboldt,

Lukas D. Wartman,

Tamara Lamprecht,

Fulu Liu,

Jun Xia,

Cyriac Kandoth,

Robert S. Fulton,

Michael D. McLellan,

David J. Dooling,

John W. Wallis,

Ken Chen,

Christopher Harris,

Heather K. Schmidt,

Joelle Kalicki-Veizer,

Charles Lu,

Qunyuan Zhang,

Ling Lin,

Michelle D. O’Laughlin,

Joshua F. McMichael,

Kim D. Delehaunty,

Lucinda A. Fulton,

Vincent Magrini,

Sean McGrath,

Ryan Demeter,

Tammi L. Vickery,

Jasreet Hundal,

Lisa L. Cook,

Gary W. Swift,

Jerry P. Reed,

Patricia A. Alldredge,

Todd Wylie,

Jason Walker,

Mark A. Watson,

Sharon E. Heath,

William D. Shan,

Nobish Varghese,

Rakesh Nagarajan,

Jacqueline E. Payton,

Jack Baty,

Shashikant Kulkarni,

Jeffery M. Klco,

Michael H. Tomasson,

Peter Westervelt,

Matthew J. Walter,

Timothy A. Graubert,

John F. DiPersio,

Li Ding,

Elaine R. Mardis,

Richard K. Wilson

Publication year - 2012

Publication title -

cell

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 26.304

H-Index - 776

eISSN - 1097-4172

pISSN - 0092-8674

DOI - 10.1016/j.cell.2012.06.023

Subject(s) - biology , clone (java method) , somatic evolution in cancer , myeloid leukemia , genome instability , genome , genetics , mutation , exome , haematopoiesis , exome sequencing , chromothripsis , myeloid , leukemia , stem cell , karyotype , cancer , cancer research , gene , chromosome , dna , dna damage

Most mutations in cancer genomes are thought to be acquired after the initiating event, which may cause genomic instability and drive clonal evolution. However, for acute myeloid leukemia (AML), normal karyotypes are common, and genomic instability is unusual. To better understand clonal evolution in AML, we sequenced the genomes of M3-AML samples with a known initiating event (PML-RARA) versus the genomes of normal karyotype M1-AML samples and the exomes of hematopoietic stem/progenitor cells (HSPCs) from healthy people. Collectively, the data suggest that most of the mutations found in AML genomes are actually random events that occurred in HSPCs before they acquired the initiating mutation; the mutational history of that cell is "captured" as the clone expands. In many cases, only one or two additional, cooperating mutations are needed to generate the malignant founding clone. Cells from the founding clone can acquire additional cooperating mutations, yielding subclones that can contribute to disease progression and/or relapse.

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