Congenital dyserythropoietic anemia type III with unbalanced globin chain synthesis

Advances in the understanding of the congenital dyserythropoietic anaemias

The congenital dyserythropoietic anaemias (CDAs) are a heterogeneous group of diseases in which the anaemia is predominantly caused by dyserythropoiesis and marked ineffective erythropoiesis; three major (types I, II and III) and several minor subgroups have been identified. Additional information on the natural history of these conditions, the beneficial role of splenectomy in CDA type II and efficacy of interferon-alpha in type I have recently been reported. A disease gene has been localised to a chromosomal segment in the three major types and in CDA type I, a disease gene has been identified (CDANI). Mutations have been detected in both familial and sporadic cases but the predicted protein structure gives few clues as to its function. In both type I and II, there are cases unlinked to the identified localisations, suggesting genetic heterogeneity.

Congenital dyserythropoietic anemias

The congenital dyserythropoietic anemias (CDAs) are an uncommon and heterogeneous group of disorders characterized by markedly ineffective erythropoiesis and, usually, striking dysplastic changes in erythroblasts. Each of the three originally described forms, designated CDA types I to III, is defined by the presence of distinctive morphologic (including ultrastructural) abnormalities in erythroblasts. CDA type II is also characterized by a marked reduction in polylactosamine structures associated with the erythrocyte membrane glycoprotein, band 3 (detected by sodium dodecyl sulfate polyacrylamide gel electrophoresis), and, usually, a positive result on the acidified serum lysis test. The course of CDA is often complicated by cholelithiasis. Even patients who have not had transfusions sometimes develop substantial iron overload. Recent studies have extended our knowledge on the clinical manifestations of CDA types I and III and have revealed the existence of forms of CDA distinct from types I to III. Information is now available on the chromosomal localization of the genes involved in CDA types I and II and in the Swedish cases of CDA type III. A few patients with CDA type I have been treated with interferon-alpha2, with a good response.

Congenital dyserythropoietic anaemias: clinical features, haematological morphology and new biochemical data

Three types of congenital dyserythropoietic anaemia (CDA) were originally identified on the basis of the pattern of dysplastic changes in the erythroblasts and the results of the acidified serum lysis test (Ham test). These were designated CDA types I, II and III. Several other types have been described subsequently and new forms continue to be reported. Some patients with CDA develop iron overload even without repeated blood transfusion and may present with the complications of severe iron overload. Dysmorphic features are seen in some cases, especially of CDA type I. In CDA type II, incomplete processing of N-linked oligosaccharides leads to a marked reduction of polylactosamines associated with band 3 of the red cell membrane. A few cases of CDA type III develop lymphoid neoplasms. Some of the Swedish cases of CDA type III have developed a retinal abnormality characterized by angioid streaks and macular degeneration. The chromosomal localizations of the disease gene in CDA types I and II and in the Swedish family with CDA type III are now known, but the identities of the mutant genes are still unknown. Cases of CDA type I have shown a partial haematological response to interferon-alpha, however the biochemical basis of this response is unclear. An important step in the diagnosis of sporadic cases of CDA is the exclusion of known causes of acquired dyserythropoiesis.

Congenital dyserythropoietic anaemia: report of three cases

Between January 1985 and June 1992, the Paediatric Department of Hospital Universiti Sains Malaysia has diagnosed congenital dyserythropoietic anaemia in three children, two of whom were siblings. The age of onset ranged from 1 to 3 years. All of them became transfusion-dependent before the age of 4 months. One of them was successfully treated with bone marrow transplantation.