Abstract

BACKGROUNDAnemia is the most frequent cytopenia in myelodysplastic syndromes (MDS), neoplastic diseases characterized by ineffective hematopoiesis and bone marrow dysplasia. MDS usually affect elderly individuals (median age in Italy 74 years), and quite rarely concern younger patients. It is of increasing interest to verify whether “young”, not therapy-related MDS patients carry germline (GM) predisposition, in order to optimize therapeutic and transplant choices. The best approach is to perform Whole Exome Sequencing (WES) instead of targeted next-generation sequencing (t-NGS) panel in cases in which MDS patients have no syndromic signs or any indicative sign of predisposing alterations. AIMWe considered a cohort of 21 consecutive MDS cases with age at diagnosis < 60 years and anemia, referred to our MDS Unit for a second opinion. METHODSAfter bone marrow (BM) re-evaluation and morphological confirmation of dysplasia compatible with MDS, we screened the 21 MDS patients by WES on BM-DNA or peripheral blood DNA (PB-DNA). For DNA sequencing, DNA libraries were sequenced using the NextSeq 550 Illumina System. Variant calling was carried out using GATK caller. T-NGS myeloid panel was in some cases applied to confirm somatic nature of mutations. Samples of 5/21 MDS patients and their relatives were further analyzed after WES by applying high-coverage t-NGS 86-gene custom panel for hereditary anemias on PB-DNA. WES of DNA extracted from saliva (S-DNA) samples was performed to provide a GM confirmation. In order to confirm pathogenic role in red blood cell (RBC) membrane defects of identified variants, we also performed the ektacytometry analysis that evaluates the erythrocyte deformability and the hydration status by subjecting them to an increasing osmotic gradient with constant shear stress. RESULTSFive of 21 MDS cases (23.8%) with symptomatic anemia (3 MDS-MLD, 1 MDS-SLD, 1 MDS with isolated del5q) were identified as carriers of variants suspected responsible of RBC membrane defects in both BM/PB-DNA and S-DNA samples, where no other germline myeloid predisposing alterations were demonstrated. MDS-associated somatic variants were present in 4/5 patients (KRAS, TET2, CBL, SRSF2, U2AF1, IDH2, with VAF >25 %). High coverage t-NGS analysis confirmed the presence of a heterozygous rare missense variant in PIEZO1 in probands 1 and 5; a heterozygous rare missense variant in PIEZO1 and ANK1 in proband 2; a heterozygous rare missense variant in PIEZO1 and SPTA1 in proband 3; a complex mode of inheritance in proband 4 with causative variants in G6PD, KCCN4, SPTB, and ABCB6 genes. PIEZO1 or KCNN4 gene variants result in erythrocyte dehydration and determine dehydrated hereditary stomatocytosis (DHS). Ektacytometry analysis showed a significant difference in the osmolarity curve of these patients, confirming the pathogenic role of the variants identified. Among these MDS suspected cases, only proband 4 was diagnostically re-categorized because of lack of acquired recurrent somatic mutations and presence of multiple alterations in erythroid genes causing dysplasia of erythroid precursors, masquerading as MDS. None of the patients presented a history of unexplained anemia before the onset of MDS, consistent with what shown for DHS1 patients with well-compensated hemolysis. Inheritance pattern of the identified variants according the study of the families confirmed the segregation of the pathogenic variants. CONCLUSIONOnset of de novo MDS in unusually young age should always prompt investigation of predisposing conditions. We suggest here that co-existence of inherited RBC membrane defects with MDS may determine earlier clinical manifestation of the clonal disease. Hereditary anemias, in particular xerocytosis, may mimic MDS morphology. In our study, among the 5 “young” MDS with concomitant inherited RBC membrane defect, one case did not finally confirm MDS diagnosis by karyotype or NGS myeloid mutation analysis. This case fulfilled the diagnostic criteria for combined hereditary hemolytic anemia: DHS2, G6PD deficiency, spherocytosis, familial pseudohyperkalemia 2, with multi-locus mode of inheritance that justifies the clinical condition (splenomegaly, hemolytic crisis, ascites). Addition of genetic testing for hereditary anemias beside assessment of germline predisposing variants may allow a more precise diagnosis in controversial cases of “young” MDS. DisclosuresSanna: Janssen: Consultancy; Abbvie: Consultancy; Astra Zeneca: Consultancy. Iolascon: Celgene: Other: Advisory Board; Bluebird Bio: Other: Advisory Board. Santini: Menarini: Membership on an entity's Board of Directors or advisory committees; Gilead: Membership on an entity's Board of Directors or advisory committees; Geron: Membership on an entity's Board of Directors or advisory committees; BMS/Celgene: Honoraria, Membership on an entity's Board of Directors or advisory committees, Research Funding; Astex: Membership on an entity's Board of Directors or advisory committees; Novartis: Honoraria, Membership on an entity's Board of Directors or advisory committees; Takeda: Membership on an entity's Board of Directors or advisory committees.

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