Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019045 (hemoglobinopathies)
 2,704 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Interferon-gamma (IFN-gamma) has been shown to influence globin gene expression in cord blood and normal adult progenitor-derived erythroblasts. To explore the influence of IFN-gamma on fetal hemoglobin (HbF) synthesis in the hemoglobinopathies, erythroid progenitors (BFU-E, burst forming unit-erythroid) from patients with sickle cell anemia (SCA) and thalassemia were co-cultured with or without IFN-gamma. Hemoglobin content in progenitor-derived erythroblasts was assessed by radioligand assay (RIA). Co-culture of erythroid progenitors from 12 SCA patients with 200-400 U/ml of IFN-gamma resulted in a significant decrease in picograms of HbF and percent HbF per BFU-E-derived erythroblast. The mean decrease (+/- SEM) of picograms of HbF per cell and percent of HbF was by 42 +/- 9% and 35 +/- 8% of control cultures, respectively. Co-culture of erythroid progenitors from 10 patients with thalassemia major or thalassemia variant (HPFH/thalassemia, sickle/beta 0-thalassemia) with 200 U/ml IFN-gamma also resulted in a significant decrease in picograms and percent of HbF per BFU-E-derived erythroblast. IFN-gamma treatment also inhibited the enhancement in gamma-globin synthesis induced in culture by butyric acid. Erythroid progenitors from 2 patients with SCA, 1 patient with sickle/beta 0-thalassemia, and 1 patient with HbE/beta 0-thalassemia were co-cultured with IFN-gamma, L-alpha-amino-n-butyric acid, or both. HbF content (expressed as picograms HbF/cell) was decreased in samples co-cultured with IFN, increased in cultures with L-alpha-amino-n-butyric acid, but remained at control values in cultures treated with IFN plus L-alpha-amino-n-butyric acid. These data demonstrate that IFN-gamma is an environmental factor that influences gamma-globin gene expression in the beta hemoglobinopathies in vitro.
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PMID:Interferon-gamma modulates fetal hemoglobin synthesis in sickle cell anemia and thalassemia. 170 29

Butyric acid, a naturally occurring fatty acid, has been shown to increase fetal hemoglobin in BFUe cultures, in primates, and in patients with beta chain hemoglobinopathies. The precise mechanism of gamma gene induction by butyrate is unknown. Butyrate may induce fetal hemoglobin production in vivo by reactivation of silenced gamma globin genes, by inhibiting the silencing of gamma genes, or by both mechanisms. We examined the effects of butyrate on gamma gene expression in transgenic mice carrying three types of constructs: microLCRA gamma mice, which continue to express the gamma gene in the adult stage of development at a level of one-third to one-fifth of the expression in the fetus; microLCRA gamma psi beta delta beta mice, which display correct developmental regulation of gamma and beta human globin genes and have low level gamma globin expression in the adult; and beta locus YAC mice, which display correct developmental regulation of epsilon, gamma, and beta globin genes and have a totally silenced gamma gene in the adult stage. Animals were treated with a continuous infusion of alpha-amino butyric acid (alpha-ABA) for 7 days. In microLCRA gamma mice alpha-ABA produced up to a 43-fold induction of gamma and 9-fold induction of mouse alpha globin genes. In contrast, butyrate did not induce gamma globin expression in the beta locus YAC mice. However, the gamma globin genes of beta locus YAC mice were activated after administration of 5-azacytidine (5-azaC), and the level of gamma globin expression was further increased by administration of alpha-ABA. These results suggest that butyrate cannot reactivate a totally silenced gamma gene and that induction of fetal hemoglobin by this compound may require the presence of preactivated gamma globin genes.
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PMID:alpha-Amino butyric acid cannot reactivate the silenced gamma gene of the beta locus YAC transgenic mouse. 752 73