Histological Transformation and Progression in Follicular Lymphoma: A Clonal Evolution Study

Follicular lymphoma (FL) is an indolent, yet incurable B cell malignancy. A subset of patients experience an increased mortality rate driven by two distinct clinical end points: histological transformation and early progression after immunochemotherapy. The nature of tumor clonal dynamics leading to...

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Published in:	PLoS medicine Vol. 13; no. 12; p. e1002197
Main Authors:	Kridel, Robert, Chan, Fong Chun, Mottok, Anja, Boyle, Merrill, Farinha, Pedro, Tan, King, Meissner, Barbara, Bashashati, Ali, McPherson, Andrew, Roth, Andrew, Shumansky, Karey, Yap, Damian, Ben-Neriah, Susana, Rosner, Jamie, Smith, Maia A, Nielsen, Cydney, Giné, Eva, Telenius, Adele, Ennishi, Daisuke, Mungall, Andrew, Moore, Richard, Morin, Ryan D, Johnson, Nathalie A, Sehn, Laurie H, Tousseyn, Thomas, Dogan, Ahmet, Connors, Joseph M, Scott, David W, Steidl, Christian, Marra, Marco A, Gascoyne, Randy D, Shah, Sohrab P
Format:	Journal Article
Language:	English
Published:	United States Public Library of Science 13-12-2016 Public Library of Science (PLoS)
Subjects:	Academic libraries Bioinformatics Biology Biology and Life Sciences Cancer Care and treatment Clonal Evolution Clone Cells Cloning Colleges & universities Computer and Information Sciences Development and progression Disease Progression Gene expression Gene mutations Genetic aspects Genomes Health aspects Humans Laboratories Lymphoma Lymphoma, Follicular - genetics Lymphoma, Follicular - physiopathology Lymphomas Medicine Medicine and Health Sciences Mutation Oncology Pathology Research and Analysis Methods Vancouver British Columbia Canada Canada
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Summary:	Follicular lymphoma (FL) is an indolent, yet incurable B cell malignancy. A subset of patients experience an increased mortality rate driven by two distinct clinical end points: histological transformation and early progression after immunochemotherapy. The nature of tumor clonal dynamics leading to these clinical end points is poorly understood, and previously determined genetic alterations do not explain the majority of transformed cases or accurately predict early progressive disease. We contend that detailed knowledge of the expansion patterns of specific cell populations plus their associated mutations would provide insight into therapeutic strategies and disease biology over the time course of FL clinical histories. Using a combination of whole genome sequencing, targeted deep sequencing, and digital droplet PCR on matched diagnostic and relapse specimens, we deciphered the constituent clonal populations in 15 transformation cases and 6 progression cases, and measured the change in clonal population abundance over time. We observed widely divergent patterns of clonal dynamics in transformed cases relative to progressed cases. Transformation specimens were generally composed of clones that were rare or absent in diagnostic specimens, consistent with dramatic clonal expansions that came to dominate the transformation specimens. This pattern was independent of time to transformation and treatment modality. By contrast, early progression specimens were composed of clones that were already present in the diagnostic specimens and exhibited only moderate clonal dynamics, even in the presence of immunochemotherapy. Analysis of somatic mutations impacting 94 genes was undertaken in an extension cohort consisting of 395 samples from 277 patients in order to decipher disrupted biology in the two clinical end points. We found 12 genes that were more commonly mutated in transformed samples than in the preceding FL tumors, including TP53, B2M, CCND3, GNA13, S1PR2, and P2RY8. Moreover, ten genes were more commonly mutated in diagnostic specimens of patients with early progression, including TP53, BTG1, MKI67, and XBP1. Our results illuminate contrasting modes of evolution shaping the clinical histories of transformation and progression. They have implications for interpretation of evolutionary dynamics in the context of treatment-induced selective pressures, and indicate that transformation and progression will require different clinical management strategies.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23 Conceptualization: RK FCC JMC DWS CS MAM RDG SPS.Data curation: RK FCC AB AMc AR KS JR MAS CN.Formal analysis: RK FCC AB AMc AR KS JR CN SPS.Funding acquisition: JMC DWS CS MAM RDG SPS.Investigation: RK FCC AMo MB PF KT BM AB AMc AR KS DY SBN JR MAS CN EG AT DE AMu RM RDM NAJ LHS TT AD DWS.Methodology: RK FCC AMo AB AMc AR KS DY JR MAS CN.Project administration: AMu RM JMC DWS CS MAM RDG SPS.Resources: AMo KT PF LHS TT AD JMC RDG.Software: RK FCC AB AMc AR KS DY JR MAS CN.Supervision: JMC DWS CS MAM RDG SPS.Validation: RK FCC SPS.Visualization: RK FCC AMo AB AMc AR KS JR MAS CN.Writing – original draft: RK FCC SPS.Writing – review & editing: RK FCC AMo MB PF KT BM AB AMc AR KS DY SBN JR MAS CN EG AT DE AMu RM RDM NAJ LHS TT AD JMC DWS CS MAM RDG SPS. I have read the journal's policy and the authors of this manuscript have the following competing interests: SPS is a founder and shareholder of Contextual Genomics Inc., developer of clinical genomic tests for cancer. Current address: Princess Margaret Cancer Centre, Toronto, Ontario, Canada
ISSN:	1549-1676 1549-1277 1549-1676
DOI:	10.1371/journal.pmed.1002197