Clinical evolution, genetic landscape and trajectories of clonal hematopoiesis in SAMD9/SAMD9L syndromes
the European Working Group of MDS in Children (EWOG-MDS)
(2021) Nature Medicine, volume 27, issue 10, pp. 1806 - 1817
(Article)
Abstract
Germline SAMD9 and SAMD9L mutations (SAMD9/9Lmut) predispose to myelodysplastic syndromes (MDS) with propensity for somatic rescue. In this study, we investigated a clinically annotated pediatric MDS cohort (n = 669) to define the prevalence, genetic landscape, phenotype, therapy outcome and clonal architecture of SAMD9/9L syndromes. In consecutively diagnosed MDS, germline
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SAMD9/9Lmut accounted for 8% and were mutually exclusive with GATA2 mutations present in 7% of the cohort. Among SAMD9/9Lmut cases, refractory cytopenia was the most prevalent MDS subtype (90%); acquired monosomy 7 was present in 38%; constitutional abnormalities were noted in 57%; and immune dysfunction was present in 28%. The clinical outcome was independent of germline mutations. In total, 67 patients had 58 distinct germline SAMD9/9Lmut clustering to protein middle regions. Despite inconclusive in silico prediction, 94% of SAMD9/9Lmut suppressed HEK293 cell growth, and mutations expressed in CD34+ cells induced overt cell death. Furthermore, we found that 61% of SAMD9/9Lmut patients underwent somatic genetic rescue (SGR) resulting in clonal hematopoiesis, of which 95% was maladaptive (monosomy 7 ± cancer mutations), and 51% had adaptive nature (revertant UPD7q, somatic SAMD9/9Lmut). Finally, bone marrow single-cell DNA sequencing revealed multiple competing SGR events in individual patients. Our findings demonstrate that SGR is common in SAMD9/9Lmut MDS and exemplify the exceptional plasticity of hematopoiesis in children.
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Keywords: General Biochemistry,Genetics and Molecular Biology
ISSN: 1078-8956
Publisher: Nature Publishing Group
Note: Funding Information: This work was supported by grants from the Deutsche Krebshilfe Max-Eder-Nachwuchsgruppenprogramm 70109005 (to M.W.W.), ERA PerMED GATA2-HuMo German Federal Ministry of Education and Research (BMBF) 2018-123/01KU1904 (to M.W.W.), German Cancer Consortium DKTK (to M.W.W. and C.M.N.), Fritz-Thyssen Foundation 10.17.1.026MN (to M.W.W.), Deutsche Kinderkrebsstifung 2017.03 (to M.W.W.), BMBF MyPred 01GM1911A (to M.W.W., M.E., C.M.N., G.G., B.S. and C.F.), José Carreras Leukämie-Stiftung (to V.B.P.), DFG SFB1160 (to M.K.), AIRC (Associazione Italiana Ricerca sul Cancro) Special Program Metastatic disease: the key unmet need in oncology 5 per mille 2018, project code 21147 (to F.L.), Cancer Center Core Grant (CA021765, to St. Jude) and Cooperative Centers of Excellence in Hematology NIDDK U54 grant (DK106829 to Fred Hutchinson Cancer Research Center). S.S.S. is a previous recipient of a Spemann Graduate School of Biology and Medicine scholarship. We thank S. Krueger, C. Jaeger, S. Zolles, S. Hollander, M. Teller and A.-R. Kaya for excellent laboratory assistance; A. Breier, A. Fischer, W. Truckenmueller, M. Siskou-Zwecker, A. Gebert, M. Boerries and H. Busch for data management (all University of Freiburg); D. Cullins (St. Jude) for FACS services; and P. Mitra for technical support. We extend great appreciation to M. Weiss and J. Crispino (St. Jude) for valuable and constructive discussions. We also acknowledge the Hilda Biobank Freiburg and Genomics Core Facility at the German Cancer Research Center/ DKFZ for specimen processing. Patient care within the EWOG-MDS consortium would not have been possible without the continuous effort of the National Reference Pathologists, National Reference Cytogeneticists, physicians, nurses and other staff of pediatric oncology units and transplant centers in all 17 participating countries (www. ewog-mds-saa.org). Publisher Copyright: © 2021, The Author(s), under exclusive licence to Springer Nature America, Inc.
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