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Globin mRNA (globin + mrna)
Selected AbstractsEmbryonic and fetal globins are expressed in adult erythroid progenitor cells and in erythroid cell culturesPRENATAL DIAGNOSIS, Issue 7 2001Elizabeth T. Lau Abstract The understanding of human hemoglobin ontogeny during development is of biological and clinical importance. Molecular and immunocytological techniques were used to study the expression of embryonic zeta (,), epsilon (,), and fetal gamma (,) globin genes in newborn cord blood, peripheral blood from men, pregnant and non-pregnant women, and in vitro mononuclear cell cultures. We have shown that embryonic and fetal globin mRNA and peptides are expressed in cultured erythroid cells and in circulating blood cells from newborns, adult non-pregnant women and from men. The findings suggest that during erythroid cell differentiation in newborns and adults, there is a transient recapitulation of sequential globin chain expression as found during embryonic and fetal development. Furthermore, these findings underscore the need for caution in using embryonic and fetal globin chains as markers to identify erythroid cells of fetal origin in maternal circulation for prenatal diagnosis. Copyright © 2001 John Wiley & Sons, Ltd. [source] Human ,2-globin nonsense-mediated mRNA decay induced by a novel , -thalassaemia frameshift mutation at codon 22BRITISH JOURNAL OF HAEMATOLOGY, Issue 1 2006Francisco J. C. Pereira Summary We describe a novel , -thalassaemia determinant in a 3-year-old girl presenting a mild microcytic and hypochromic anaemia, and normal haemoglobin A2 level. Molecular studies revealed heterozygosity for a novel microdeletion (,C) at codon 22 of the ,2 -globin gene. As the frameshift mutation generates a premature translation termination codon at position 48/49, we investigated the effect of the nonsense codon on the ,2 -globin gene expression. Although it does not affect RNA splicing, the premature nonsense codon induces accelerated mRNA degradation. To our knowledge, this is the first time the nonsense-mediated mRNA decay has been reported to occur in human , -globin mRNA. [source] Effects of rapamycin on accumulation of , -, , - and , -globin mRNAs in erythroid precursor cells from , -thalassaemia patientsEUROPEAN JOURNAL OF HAEMATOLOGY, Issue 5 2006Eitan Fibach Abstract:, We studied the effects of rapamycin on cultures of erythroid progenitors derived from the peripheral blood of 10 , -thalassaemia patients differing widely with respect to their potential to produce foetal haemoglobin (HbF). For this, we employed the two-phase liquid culture procedure for growing erythroid progenitors, high performance liquid chromatography for analysis of HbF production and reverse transcription polymerase chain reaction for quantification of the accumulation of globin mRNAs. The results demonstrated that rapamycin induced an increase of HbF in cultures from all the , -thalassaemia patients studied and an increase of their overall Hb content/cell. The inducing effect of rapamycin was restricted to , -globin mRNA accumulation, being only minor for , -globin and none for , -globin mRNAs. The ability of rapamycin to preferentially increase , -globin mRNA content and production of HbF in erythroid precursor cells from , -thalassaemia patients is of great importance as this agent (also known as sirolimus or rapamune) is already in clinical use as an anti-rejection agent following kidney transplantation. These data suggest that rapamycin warrants further evaluation as a potential therapeutic drug in , -thalassaemia and sickle cell anaemia. [source] | ||||||||||