Evolution of Metastases in Space and Time under Immune Selection

We examined how the immune microenvironment molds tumor evolution at different metastatic organs in a longitudinal dataset of colorectal cancer. Through multiplexed analyses, we showed that clonal evolution patterns during metastatic progression depend on the immune contexture at the metastatic site...

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Bibliographic Details
Published in:	Cell Vol. 175; no. 3; pp. 751 - 765.e16
Main Authors:	Angelova, Mihaela, Mlecnik, Bernhard, Vasaturo, Angela, Bindea, Gabriela, Fredriksen, Tessa, Lafontaine, Lucie, Buttard, Bénédicte, Morgand, Erwan, Bruni, Daniela, Jouret-Mourin, Anne, Hubert, Catherine, Kartheuser, Alex, Humblet, Yves, Ceccarelli, Michele, Syed, Najeeb, Marincola, Francesco M., Bedognetti, Davide, Van den Eynde, Marc, Galon, Jérôme
Format:	Journal Article
Language:	English
Published:	United States Elsevier Inc 18-10-2018
Subjects:	clonal heterogeneity immunoediting immunoscore immunotherapy metastasis microenvironment mutations recurrence T cells microenvironment recurrence mutations metastasis clonal immunotherapy immunoscore T cells heterogeneity immunoediting
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Summary:	We examined how the immune microenvironment molds tumor evolution at different metastatic organs in a longitudinal dataset of colorectal cancer. Through multiplexed analyses, we showed that clonal evolution patterns during metastatic progression depend on the immune contexture at the metastatic site. Genetic evidence of neoantigen depletion was observed in the sites with high Immunoscore and spatial proximity between Ki67+ tumor cells and CD3+ cells. The immunoedited tumor clones were eliminated and did not recur, while progressing clones were immune privileged, despite the presence of tumor-infiltrating lymphocytes. Characterization of immune-privileged metastases revealed tumor-intrinsic and tumor-extrinsic mechanisms of escape. The lowest recurrence risk was associated with high Immunoscore, occurrence of immunoediting, and low tumor burden. We propose a parallel selection model of metastatic progression, where branched evolution could be traced back to immune-escaping clones. The findings could inform the understanding of cancer dissemination and the development of immunotherapeutics. [Display omitted] •Different escape mechanisms delineated by lack of adaptive immunity or immunoediting•Non-recurrent clones are immunoedited; progressing clones are immune privileged•Immunoediting and Immunoscore are predictive factors of metastasis recurrence•Parallel selection model describes clonal immunoediting and tumor evolution A longitudinal analysis of clonal evolution of tumors across multiple tissues identifies a parallel selection model that explains the role of immune editing in controlling metastatic growth.
Bibliography:	ObjectType-Article-1 SourceType-Scholarly Journals-1 ObjectType-Feature-2 content type line 23
ISSN:	0092-8674 1097-4172
DOI:	10.1016/j.cell.2018.09.018