Two Novel Somatic Mutations of the ATRX Gene in Female Patients with Acquired Alpha Thalassemia of Myelodysplastic Syndrome (ATMDS)

Introduction: In contrast to the classical thalassemias, two distinct thalassemias were recently described in which the molecular defect does not reside in the globin genes but in a transcriptional activator of alpha-globin genes. This protein, ATRX, is mutated in the rare inherited disease of alpha...

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Published in:Blood 2006-11, Vol.108 (11), p.1765-1765
Main Authors: Haas, Peter S., Schwabe, Michael, Fisher, Chris, Gibbons, Richard, Higgs, Doug R., Bissé, Emanuel, Lübbert, Michael
Format: Article
Language:English
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Summary:Introduction: In contrast to the classical thalassemias, two distinct thalassemias were recently described in which the molecular defect does not reside in the globin genes but in a transcriptional activator of alpha-globin genes. This protein, ATRX, is mutated in the rare inherited disease of alpha-thalassemias (AT) with mental retardation (ATR-X syndrome) whose affected individuals show a mild form of AT. In addition, and independent of the ATR-X syndrome, there have been approximately 100 case reports worldwide of the association of an acquired form of AT with hematological neoplasms, the large majority of those cases being MDS (ATMDS). The clinical characteristics of such patients encompass the typical features of the underlying hematological disorder plus microcytic anemia. The latter is due to massively reduced alpha-globin gene transcription resulting in excess hemoglobin H (HbH), as revealed by supravital staining of peripheral blood erythrocytes and hemoglobin electrophoresis. The molecular defect of ATMDS lies in a mutation of the ATRX protein and, thus, represents a form of acquired alpha-thalassemia. ATMDS shows a striking male preponderance for reasons that are as yet unclear. We systematically studied patients with MDS and low MCV and/or MCH but without iron deficiency for the possible presence of HbH cells (indicative of ATMDS). Supravital staining and sequence analysis of the ATRX gene were performed as described (Steensma et al. Blood. 2004; 103(6):2019–26). Results: Two female pts with AT-MDS were identified by this strategy. Pat 1 was a 69 year old pt who diagnosed with MDS of the subtype refractory cytopenia with multilineage dysplasia (RCMD), ringed sideroblasts and thrombocytosis (MDS/MPS overlap syndrome, JAK2 negative). She presented with microcytic anemia (Hb 7,5 g/dl, MCV 76,5 fl, MCH 22.4 pg). Supravital staining of a peripheral blood smear revealed massive erythrocytic HbH inclusions. Sequencing of the ATRX coding sequence revealed a novel missense mutation with an A>G transition in codon 2234. This mutation (D2234G) results in an amino acid substitution in ATRX exon 32. It represents the 14th ATRX mutation described thus far and, moreover, the first mutation detected in a female. Pat 2 (61 years old) with initially RCMD and microcytic anemia (Hb 10.4 g/ld, MCV 69 fl, MCH 15.2 pg) had increasing erythrocytosis of 6.93 Mio/μl maximum (also JAK2 negative). Molecular analysis of the ATRX gene also showed a not previously reported A
ISSN:0006-4971
1528-0020
DOI:10.1182/blood.V108.11.1765.1765