Myelodysplastic Syndromes Are Propagated by Rare and Distinct Human Cancer Stem Cells In Vivo

Petter Woll ,Sten Linnarsson,Sara Duarte,Pierre Fenaux,Helen Doolittle,Supat Thongjuea,Christian Scharenberg,Luca Malcovati,Ingunn Dybedal,Kristina Anderson,Gudrun Göhring,Jacqueline Boultwood,Peter Hokland,Mtakai Ngara,Una Kjällquist,Mohsen Karimi,Mario Cazzola,Ashwin Unnikrishnan,Rikard Erlandsson,Rickard Sandberg,David Bowen,Laura Stenson,Claus Nerlov,Magnus Tobiasson,Onima Chowdhury,Qiaolin Deng,Gunnar Kvalheim,Andrea Pellagatti,Eleni Giannoulatou,Paresh Vyas,Dag Josefsen,Brigitte Schlegelberger,Lars Nilsson,Sudhir Tauro,Alice Giustacchini,Elli Papaemmanuil,Stephen Taylor,Sally A Clark ,Peter J Campbell ,Eva Hellström‐Lindberg ,John E Pimanda ,Adam J Mead ,Iain C Macaulay ,Mette Holm ,David C Wedge ,Stefan N Constantinescu ,Teresa Mortera‐Blanco ,Sten Eirik W Jacobsen

doi:10.1016/j.ccr.2014.03.036

Abstract

Evidence for distinct human cancer stem cells (CSCs) remains contentious and the degree to which different cancer cells contribute to propagating malignancies in patients remains unexplored. In low- to intermediate-risk myelodysplastic syndromes (MDS), we establish the existence of rare multipotent MDS stem cells (MDS-SCs), and their hierarchical relationship to lineage-restricted MDS progenitors. All identified somatically acquired genetic lesions were backtracked to distinct MDS-SCs, establishing their distinct MDS-propagating function in vivo. In isolated del(5q)-MDS, acquisition of del(5q) preceded diverse recurrent driver mutations. Sequential analysis in del(5q)-MDS revealed genetic evolution in MDS-SCs and MDS-progenitors prior to leukemic transformation. These findings provide definitive evidence for rare human MDS-SCs in vivo, with extensive implications for the targeting of the cells required and sufficient for MDS-propagation.

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