Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0039730 (thalassemia)
10,305 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To determine whether beta-thalassemia can be detected in the fetus, blood was obtained from abortuses of normal mothers and of mothers with beta-thalassemia trait. The red cells were incubated with radioactive leucine and the globin chains were analyzed by radiochromatography. Two independent methods were utilized to correct the results for contamination by maternal radioactive beta-chain, and the corrected beta/gamma ratios were compared to a previously established range of normal fetal beta/gamma synthetic ratios obtained by similar measurements in pure fetal cells. In the erythroid cells of three fetuses from mothers with beta-thalassemia trait, the beta/gamma synthetic ratio was normal in two. The third had a beta/gamma ratio of 0.04 at 10 1/2 weeks, a 50% reduction, consistent with fetal beta-thalassemia trait. Two other fetuses, derived from parents both of whom had beta-thalassemia trait, were also studied. One had a beta/gamma ratio of 0.029 at 8 weeks, a 65% reduction, also consistent with beta-thalassemia trait. The cells of the other had a ratio of essentially zero at 11 weeks, highly suggestive of homozygous beta-thalassemia. Although further experience will be needed to distinguish the homozygous and heterozygous states reliably, it now appears that the beta-thalassemia gene is expressed in the first trimester. Therefore these data suggest that the antenatal diagnosis of beta-thalassemia is becoming an attainable goal.
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PMID:Expression of the beta-thalassemia gene in the first trimester fetus. 105 53

Globin chain synthesis was examined in erythroid cells of increasing maturity, fractionated from the whole bone marrow of beta-thalassemia heterozygotes by a density gradient centrifugation procedure. In experiments using total cell "globin," a gradient of alpha/beta chain ratios was observed, increasing with erythroid cell maturation from unity in the basophilic cells up to 2.0 in reticulocytes. Gel filtration of the lysates from these marrow fractions revealed the presence of free alpha chains even in the most immature cells, the amount of which increased with erythroid cell age; the total alpha/beta ratio derived from gel filtration experiments showed a gradient similar to that observed in the total globin experiments. However, the alpha/beta ratio of the hemoglobin fraction obtained by gel filtration remained constant throughout maturation at an average of 0.65. This latter finding is incompatible with balanced synthesis at any stage of red cell development and excludes the possibility that total beta chain production is higher in the early cells than in the later cells or that alpha chain production in the early cells is reduced to the level of beta chain synthesis. Furthermore, in a Hb S/beta-thalassemia marrow examined, the beta A/beta S ratio remained constant throughout maturation while the alpha/non-alpha ratio showed an increase like that observed in the simple beta-thalassemia heterozygotes. This argues strongly against increased synthesis from either the thalassemic or nonthalassemic beta chain gene being responsible for the balanced synthesis in the immature cells. These findings lead us to suggest that, in beta-thalassemia heterozygotes, a large alpha chain pool is present throughout erythroid cell maturation and that the observed increase in alpha/beta ratios is a function of the ability of those cells to degrade the excess alpha chains.
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PMID:Globin synthesis in fractionated Normoblasts of beta-thalassemia heterozygotes. 116 70

There is decreased beta-globin production in beta-thalassemic reticulocytes and nucleated erythroid cells. In this study, we have examined whether unbalanced globin synthesis is expressed at all stages of human erythroid cell maturation. In order to determine the pattern of globin synthesis in early erythroid cells during erythroid cell maturation, an in vitro culture system using human bone marrow erythroid precursor cells has been developed. Early erythroid precursor cells (proerythroblasts and basophilic erythroblasts) have been isolated from nonthalassemic and thalassemic human bone marrows by lysing more mature erythroid cells, using complement and a rabbit antiserum prepared against normal human red cells. In the presence of erythropoietin, differentiation and proliferation of erythroid cells in demonstrable in liquid suspension culture for 24-48 hr, as determined by morphological criteria and by an increase in globin synthesis. The ratio of alpha- to beta-globin chain synthesis in nonthalassemic cells in approximately 1 at all stages of erythroid cell differentiation during culture. In cells from four patients with homozygous beta- thalassemia there is decreased beta-globin synthesis compared to alpha-globin synthesis, both in early erythroid precursor cells and during their maturation in culture. These findings indicate that unbalanced globin chain synthesis is expressed at all stages of red cell maturation in homozygous beta-thalassemia.
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PMID:Isolation and in vitro differentiation of human erythroid precursor cells. 126 Jan 33

We have previously described a family of Northern Sardinian descent in which the propositus was affected by thalassemia major resulting from compound heterozygosity for codon 39 nonsense mutation and the beta +IVS II nt 745 mutation and in which all heterozygotes for the beta +IVS II nt 745 mutation had normal hemoglobin (Hb) A2 levels. To define the reasons for normal HbA2 levels in otherwise typical beta-thalassemia heterozygotes, we cloned and sequenced the delta-thalassemia gene in cis to the beta +IVS II nt 745 mutation. The sequence analysis showed a single nucleotide substitution (G----A) at position 69 nts (delta +69) downstream to the polyA addition site. Dot blot analysis with an oligonucleotide probe complementary to the delta +69 mutation detected this mutation in several heterozygotes for the beta +IVS II nt 745 mutation from the proband's family, but failed to show it either in a group of normal individuals of the same origin or in nonrelated heterozygotes for the beta +IVS II nt 745 mutation of the same or different descent from the proband. The delta +69 (G----A) mutation may be responsible for the low delta-globin output from the beta +IVS II nt 745 chromosome or could be a silent polymorphism not affecting the function of the delta-globin gene. The normal G at position 69 is part of a sequence very similar to the core DNA (A/T)GATA(A/G) motif (GATA box) that is a binding site for the GATA-1 protein. Gel-retardation assay has shown that a DNA fragment containing the GATA motif with the G----A at position +69 has increased binding affinity for erythroid-specific DNA binding protein(s) as compared with the wild-type sequence. These findings may suggest that the delta +69 mutation is responsible for the deficient function of the in cis delta-globin gene.
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PMID:Delta-thalassemia due to a mutation in an erythroid-specific binding protein sequence 3' to the delta-globin gene. 130 71

The high level expression of the human alpha-globin genes in erythroid tissue appears to require a set of DNaseI hypersensitive sites located upstream of the human alpha-globin gene cluster. These sequences, termed the locus control region (LCR), include two erythroid specific and a number of less restricted DNaseI hypersensitive sites. In this report we describe an individual with alpha-thalassemia associated with a truncation of the short arm of chromosome 16 that removes the LCR region and inactivates the adjacent intact alpha-globin genes. This genetic study supports the critical role of the LCR in the transcriptional activation of the human alpha-globin gene cluster and substantiates the importance of LCR deletions in the etiology of alpha-thalassemia.
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PMID:Human alpha-globin gene expression is silenced by terminal truncation of chromosome 16p beginning immediately 3' of the zeta-globin gene. 135 Oct 37

The Indian delta beta-thalassaemia, with elevated fetal gamma globin gene expression, was previously found to have a large deletion beginning 1 kb 3' of the (A) gamma globin gene at GenBank HUMHBB coordinate 42151, and extending into a new L1 sequence. We have now determined the 3' breakpoint of this deletion, and in doing so we have extended the known beta-globin gene cluster DNA sequence from its end at 73326 to projected GenBank coordinate 79016. These data show that the deletion is 32.6 kb long, terminating 11 kb 3' of the beta-globin gene. This 3' breakpoint is at 74772, within a 3.4 kb partial L1 repeat at 74263-77665; the Black ((A) gamma delta beta)(0)-thalassaemia also terminates in this L1, at 76508. In addition, two Alu sequences were found, at 73692-73816 and 78171-78441. Among the protein-binding DNA sequence motifs 3' to the Indian delta beta-thalassaemia breakpoint, at 76581/76607 there is a TGATAA/ACACCC pair that binds the erythroid-specific GATA-1 and ubiquitous CACCC-box binding proteins. We hypothesize that elevated fetal haemoglobin may be due to an enhancer or enhancers 3' to the deletion breakpoints and may involve the TGATAA/ACACCC pair.
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PMID:The 32.6 kb Indian delta beta-thalassaemia deletion ends in a 3.4 kb L1 element downstream of the beta-globin gene. 141 24

We have investigated the developmental and tissue specific expression of the human embryonic zeta-globin gene in transgenic mice. A construct containing 550 bp of zeta-globin 5' flanking region, fused to a beta-galactosidase (lacZ) reporter gene and linked to the locus control region (LCR)-like alpha positive regulatory element (alpha PRE) was employed for the production of transgenic mice. Firstly, we compared the number of live born transgenic mice containing this construct to the number of live born transgenic mice containing the entire zeta-globin gene linked to the alpha PRE or the beta LCR. Data showed that 12% of mice generated from eggs injected with zeta-promoter/lacZ/alpha PRE DNA were transgenic compared to only 2% of mice generated from eggs injected with the entire zeta-globin gene linked to the alpha PRE or the beta LCR. The reduced number of live born transgenic mice containing the latter constructs suggests that death of transgenic embryos, possibly due to thalassaemia, may be occurring. X-gal staining of whole embryos containing the lacZ gene revealed that zeta-globin promoter activity was most pronounced at 8.5-9.5 days of development and was restricted to erythroid cells. By 15 days of development, no zeta-globin promoter activity was detected. These results suggest that the alpha PRE can direct high level expression from the zeta-globin promoter and that sequences required for the correct tissue and developmental specific expression of the human zeta-globin gene are present within 550 bp's of 5' flanking region. Sequences within the body of the zeta-globin gene or 3' of the cap site do not appear to be necessary for correct zeta-globin developmental regulation.
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PMID:The developmental regulation of the human zeta-globin gene in transgenic mice employing beta-galactosidase as a reporter gene. 145 28

Colony assays in methylcellulose (semisolid medium) of erythroid precursors and granulocyte-macrophage precursors from the peripheral blood of 34 patients with beta-thalassemia major and 31 age-matched normal controls were studied. In patients homozygous for beta-thalassemia, a significant increase of circulating erythroid progenitor cells to 3-5 times of normal controls was observed. Furthermore, the number of circulating colony forming units-granulocyte-macrophage (CFU-GM) and colony forming units-mixed (CFU-Mixed) also increased significantly. In these subjects, there was a linear relationship between the number of burst forming units-erythroid (BFU-E) and CFU-GM. The serum level of erythropoietin (EPO) was also significantly higher than that of normal controls (p < 0.05). The increased hematopoiesis, indicated by an increased number of circulating hematopoietic progenitor cells and an elevated serum level of EPO, suggests that the physiologic regulation of erythropoiesis still operated in patients with beta-thalassemia major.
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PMID:Peripheral blood hematopoietic progenitor cells in beta-thalassemia major. 146 Mar 23

Blood erythroid progenitors (BFU-E) from patients with sickle and thalassemic syndromes were compared with those from normal individuals. The day of maximal colony formation in methyl cellulose was slightly later in the cultures from the patients with hemoglobinopathies than in the normal cultures. The number of colonies/100,000 mononuclear cells was similar in all cultures on day 13, but was higher in the hemoglobinopathy cultures on the day of maximal growth. The number of BFU-E/mL of blood was significantly higher than normal at all times in both sickle cell anemia and thalassemia. The proportional synthesis of gamma globin was twice normal in all sickle cultures, and 4 times normal in those from beta+-thalassemia. Hemin and interleukin-3 increased the numbers of erythroid colonies in all cultures, but did not consistently alter the globin synthesis patterns. Each progenitor population has a unique pattern in terms of time course, number of BFU-E, and level of gamma globin synthesis. These features indicate distinct types of BFU-E, or differences in accessory cells, or both, which distinguish blood-borne erythropoiesis in normals and those with hemoglobinopathies.
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PMID:Sickle and thalassemic erythroid progenitor cells are different from normal. 148 17

Delta-thalassemia is a complex group of inherited disorders of globin genes characterized by impaired synthesis of the delta-globin chain. The T-C substitution was detected at position -77 of the delta-globin gene isolated from three independent Japanese individuals who were homozygotes for delta-thalassemia. To elucidate the significance of the mutation in delta-globin gene expression, we investigated the genotype of three delta-thalassemia homozygotes and 58 normal individuals using dot blot hybridization of the polymerase chain reaction (PCR)-amplified DNA. The mutation was observed in six alleles of three homozygotes, while no mutation was detected in 116 alleles of normal individuals, thereby indicating the close association of this mutation with the thalassemia phenotype. Since the mutation (TTATCT-TCATCT) is located within the inverted binding motif of GATA-1 (T or A-G-A-T-A-G or A), an erythroid cell-specific transcription factor, we did gel retardation assays using nuclear extracts from the erythroid cells. We found that GATA-1 binds the oligonucleotide spanning positions -61 to -90, but does not bind to the oligonucleotide with the mutation at position -77. Competition gel retardation assays showed that GATA-1 binding can be competed out by the fragment with the GATA-1 motif, but not with the mutant oligonucleotide. Analysis of the transient expression of the CAT gene linked to the delta-globin gene promoter region demonstrated that the construct with the mutant promoter region was expressed about 20-fold less compared with the normal one. Thus, the mutation at position -77 impairs delta-globin gene expression by abolishing GATA-1 binding to the AGATAA sequence of the promoter region of the delta-globin gene. This provides a good example of involvement of tissue-specific transacting factors in the molecular pathogenesis of hereditary diseases.
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PMID:Delta-thalassemia caused by disruption of the site for an erythroid-specific transcription factor, GATA-1, in the delta-globin gene promoter. 151 47


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