Unlike previously described animal models of beta thalassemia major, homozygous gammabeta(0) mice switch from mouse embryonic globin chains to human fetal gamma globin during fetal life.
Further analysis of the polymorphic (TG)n(CG)m repeats within the IVS2 of the two gamma-globin genes revealed no different proportions of the polymorphic patterns among TM and TI groups of patients either.
We conclude that the CH haplotypes are useful genetic determinants for beta-thalassemia major and intermedia patients, while the 3'HS1 (+179 C>T) mutation may have functional consequences in gamma-globin genes expression.
In order to address this issue, we carried out breeding and transplantation studies in murine models of beta-thalassaemia intermedia (Hbb(th-3)/+) and severe beta-thalassaemia major (Hbb(th-3)/Hbb(th-3)) using transgenic lines expressing various levels of human gamma-globin.
Thus, the heterocellular gamma globin expression together with in vivo preferential survival of HbF-containing erythroid cells ameliorates Cooley's anemia in the beta(o) thalassemia homozygotes.
The beta+ IVS-I nt 6 of the beta-globin gene and the C----T substitution at position -158 5' of the G gamma-globin gene were detected more frequently in patients with thalassemia intermedia or late-presenting thalassemia major considered together as compared to those affected by typical transfusion-dependent thalassemia major.
The relative concentrations of alpha-, beta-, and gamma-globin mRNA sequences were measured in bone marrow nuclear and cytoplasmic RNA and in RNA from peripheral blood reticulocytes of three patients with homozygous beta+ thalassemia.