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)

We have used a quantitative reverse transcription/polymerase chain reaction (RT/PCR) procedure to evaluate the relative amounts of beta A and beta S mRNA transcripts in eight subjects with a simple Hb S heterozygosity, in six with Hb S-beta(+)-thalassaemia (thal), and in three individuals with Hb S-beta(+)-HPFH [hereditary persistence of fetal haemoglobin (Hb)] [two with the Atlanta type and one with the G gamma-202 (C-->G) substitution]. A balanced synthesis of beta A and beta S mRNAs was observed in all Hb S heterozygotes, whereas the beta A mRNA levels were reduced to approximately 16% of that of the beta S mRNA in the six Hb S-beta(+)-thal compound heterozygotes, to approximately 43% in the two subjects with Hb S-beta(+)-HPFH (Atlanta type), and to 23.8% in the one individual with Hb S-beta(+)-HPFH [G gamma-202 (C-->G) substitution]. The higher Hb A versus Hb S levels observed in all groups of the patients studied, further confirm a post-translational control mechanism in determining the levels of Hb A and Hb S in the peripheral blood of these individuals. The procedure described here provides an accurate and easy method for studying the relative expression of particular globin genes at the transcriptional level in patients with various haemoglobinopathies.
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PMID:The relative levels of beta A and beta S mRNAs in Hb S heterozygotes and in patients with Hb S-beta(+)-thalassaemia or Hb S-beta(+)-HPFH combinations. 752 23

The HPFH deletion type 2 was first described in a patient from Ghana and is characterized by a large deletion of approximately 105 kb extension. We report here the results obtained in studying a black Brazilian patient who presented an association of beta-thalassemia and HPFH type 2, using a PCR strategy for detection of the breakpoint region. This procedure allows a rapid molecular identification of this condition and is a reliable procedure for screening patients with a hematological picture of HPFH deletion types.
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PMID:Molecular identification of hereditary persistence of fetal hemoglobin type 2 (HPFH type 2) in patients from Brazil. 753 77

Human globin genes are expressed in tissue and developmental stage specific manners. Various experiments including expression studies using the transgenic mouse system have been done to elucidate molecular mechanisms of globin gene regulation. Cis-elements and transcription factors, especially erythroid specific and stage specific factors, involved in proper globin gene regulation are summarized. A model of Hb switching is discussed in terms of the interaction of LCR with each globin gene region. Molecular mechanisms deteriorating or enhancing transcription of the globin genes in diseases such as thalassemia and HPFH, are also mentioned.
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PMID:[Molecular mechanisms of globin gene regulation and disregulation]. 889 May 56

Variation in the level of fetal hemoglobin (HbF) accounts for much of the clinical heterogeneity observed in patients with sickle cell disease (SCD). The HbF level has emerged as an important prognostic factor in both sickle cell pain and mortality, and a % HbF of 10-20% has been suggested as a threshold level for diminished clinical severity. The number of erythrocytes that contain HbF (termed F cells) may also be critically important, as F cells resist intravascular sickling and have preferential in vivo survival. Since F cells can be enumerated with high accuracy using flow cytometry methods, we prospectively studied a cohort of 242 children with SCD. Children with HbS and hereditary persistence of fetal hemoglobin (S/HPFH) had essentially 100% F cells. In contrast, children with homozygous sickle cell anemia (HbSS), HbS/beta0 thalassemia, or HbS/beta+ thalassemia had significantly lower mean % F cell values (55.9, 61.6, and 51.3%, respectively; P < 0.001), and children with HbSC had even fewer F cells (27.0%; P < 0.001). There was a highly significant correlation between the % F cells and the log (% HbF), which was observed for the total population of children (r = 0.95, P < 0.001), as well as for each of the individual subgroups of children with HbSS (r = 0.94, P < 0.001), HbSC (r = 0.89, P < 0.001), or HbS/beta0 thalassemia and HbS/beta+ thalassemia (r = 0.95, P <0.001). This logarithmic correlation between % F cells and % HbF has not been previously described and has important implications for the pharmacologic manipulation of HbF in patients with SCD.
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PMID:Quantitative analysis of erythrocytes containing fetal hemoglobin (F cells) in children with sickle cell disease. 898 Feb 59

The -175 (T-->C) G gamma hereditary persistence of fetal haemoglobin is a very rare promoter mutation occurring in Caucasians as well as in African-Americans. Heterozygotes for this non-deletional HPFH show 20% HbF, mostly of G gamma type. We describe here a healthy Sardinian man who coinherited -175 (T-->C) G gamma HPFH with the beta-thalassaemia codon 39 nonsense mutation in trans; he showed 64% HbF, 100% of G gamma type. Although the beta-globin haplotype pattern (II/II) was indicative of the presence of the A gamma T allele on both chromosomes, the A gamma T expression was undetectable by HPLC even in red cell populations separated by age. The proband was, moreover, homozygous for the -4 bp deletion at position -225 to -222 of A gamma promoter which has recently been associated with decreased A gamma T globin expression. These findings suggest that this maximal overexpression of G gamma-globin probably reflects intensified stimulation of the mutated G gamma promoter in this hitherto undescribed genetic condition.
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PMID:Maximal gamma-globin expression in the compound heterozygous state for -175G gamma HPFH and beta degree 39 nonsense thalassaemia: a case study. 922 87

Naturally occurring deletion mutations within the human beta-globin cluster lead to specific, phenotypically discrete syndromes (i.e., delta beta-thalassemias and hereditary persistence of fetal hemoglobin, HPFH), characterized by increased production of fetal hemoglobin in adult life. We have previously characterized an enhancer element, which is juxtaposed to the fetal G gamma-gene, by means of a deletion first described in a Thai family. To obtain further insights into the mechanisms involved in this deletion, we have now characterized several of its novel features. Following amplification by the polymerase chain reaction and sequencing of the 1.5-kb bridging fragment, we have shown that the 5' breakpoint of the deletion occurs 1260 bp 3' of the fetal G gamma-globin gene, whereas the 3' breakpoint lies 521 bp upstream of the EcoRI site of the enhancer element and 2845 bp upstream of the 3' breakpoint of the Chinese (A gamma delta beta) zero-thalassemia deletion. The total length of the deletion is 101 kb, which resembles that of HPFH-1 and HPFH-2 deletions and a set of two gamma delta beta-thalassemia deletions. Our data further support the hypothesis that these sets of large deletions with almost identical lengths are generated via the loss of a complete chromatin loop. To elucidate further the mechanisms leading to the deletion, we have sequenced the novel 0.5-kb region residing immediately 3' to the breakpoint and shown that it contains putative binding sites for several transcription factors, such as HNF-1, AP-1, and TFIID. Sequence comparison of the deletion breakpoints reveals no junctional homology, indicating an end-to-end joining of blunted ends; a pair of 7-nt complementary repeats adjacent to a set of a direct CCCT repeat flanks the breakpoints. This limited homology constitutes a frequent characteristic of a non-homologous recombination mechanism. All these features of the HPFH-6 deletion suggest that this mutation has resulted from a non-homologous recombination event.
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PMID:Molecular cloning of the breakpoints of the hereditary persistence of fetal hemoglobin type-6 (HPFH-6) deletion and sequence analysis of the novel juxtaposed region from the 3' end of the beta-globin gene cluster. 927 69

Eighty-seven patients with beta thalassaemia of intermediate severity were investigated in our Unit to determine whether it is possible to consistently predict phenotypic severity from genotypic factors. The subjects were from the following ethnic backgrounds: Asian Indian (35.1%), Middle Eastern (24.3%), Mediterranean (21.6%), Northern European (14.9%) and South-East Asian/Chinese (4.1%). There was a wide spectrum of phenotypic severity; 49 had mild disease, 22 moderate and 16 severe disease. 22/87 patients had inherited only a single copy of a beta-thalassaemia allele, of whom 11 had also co-inherited triplicated alpha genes (alpha alpha alpha/alpha alpha or alpha alpha alpha/alpha alpha alpha) and seven had dominantly inherited beta thalassaemia. In four of the heterozygotes no explanation was found for the thalassaemia-intermedia phenotype. 65/87 patients were homozygous or compound heterozygous for 26 mutations (40 genotypes) which ranged from very mild beta+ to beta0 thalassaemia alleles. All patients with two mild or very mild beta+ thalassaemia alleles had mild to moderate disease. Although concurrent inheritance of extra alpha genes with heterozygous beta thalassaemia results in thalassaemia intermedia, the disease is mild. Co-inheritance of alpha thalassaemia as a modulating factor was not evident in this cohort of patients. Presence of the in-cis Xmn I-Ggamma site was a modulating factor but insufficient to explain the high fetal haemoglobin levels encountered. In conclusion, apart from the two categories of triplicated alpha genes with heterozygous beta thalassaemia and inheritance of mild beta+ thalassaemia alleles, it was not possible to consistently predict phenotype from alpha and beta genotypes alone, due to the influence of modulating factors, some implicated (such as inheritance of HPFH determinants) and others as yet unidentified.
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PMID:Beta-thalassaemia intermedia: is it possible consistently to predict phenotype from genotype? 945 Jul 94

The splicing defect at IVS-I-110 is by far (43.15%) the most common beta-thalassaemia mutation in Greece. The - 117 (G-->A) Agamma hereditary persistence of fetal hemoglobin (Greek HPFH) is also the most frequent nondeletional HPFH in Greece. We report a case in which these two defects co-segregates. She is a healthy female where the total Hb is 12.3 g/dl with 51% HbF and normal HbA2. Her Ggamma/Agamma ratio is 35:65 differing from that of 10 simple heterozygotes for the Greek HPFH who have ratio of 8:92. Molecular analysis of the beta-globin genotype revealed the presence of the IVS-I-110 beta+ mutation in trans to the -117 G-->A Greek HPFH. Both mutations are linked to Ia. Her father has Greek HPFH in trans to the -158 C-->T on the Ggamma promoter, which is linked with haplotype IIIalpha. He has 13% HbF with a Ggamma/Agamma ratio 32:68. Her sister is a compound heterozygote for the IVS-I-110 mutation in trans to the - 158 C-->T, with HbF levels of 3% and a Ggamma/Agamma ratio 72:28.
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PMID:Fetal hemoglobin expression in the compound heterozygous state for -117 (G-->A) Agamma HPFH and IVS-1 nt 110 (G-->A) beta+ thalassemia: a case study. 1096 67

The coexistence of beta- and gamma-globin gene mutations in the compound heterozygous state presents a rare in vivo model that provides important data on gene regulation of clinical interest. In this unique comparative study we present the hematological, biosynthetic, and molecular data from six adult compound heterozygotes for the Greek nondeletional hereditary persistence of fetal hemoglobin (nd-HPFH, Agamma-117 G-->A) and four frequent beta-thalassemia mutations (IVS I-110 G-->A, Cd 39 C-->T, IVS I-1 G-->A, and IVS I-6 T-->C) found in the Hellenic population. Fetal hemoglobin (HbF) levels were found to be considerably higher (25-50%) than in 19 Greek nd-HPFH heterozygotes (HbF=9.7+/-1.7%) and, interestingly, to depend on the type of the respective beta-thalassemia mutation, in trans to the nd-HPFH allele. All cases presented a typical beta-thalassemia heterozygote's phenotype despite the increased HbF and the normal HbA2 levels, as indicated by both the hematological indices and the biosynthetic ratios. These data were compared with those from two unique cases of Greek origin: a homozygous case of the Greek nd-HPFH and a compound heterozygote with HbS. Our data suggest that in these compound heterozygous cases the beta-thalassemic chromosome indirectly determines the final outcome of the gamma- and of the in cis beta-globin gene expression, most likely at the post-transcriptional level.
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PMID:A comparative study of Greek nondeletional hereditary persistence of fetal hemoglobin and beta-thalassemia compound heterozygotes. 1197 33

The inherited haemoglobinopathies are large group of disorders that include the thalassaemias and sickle cell disease. Carrier detection methods must be able to detect alpha-, beta- and deltabeta-thalassaemias, HPFH disorders and haemoglobin variants. Carrier diagnosis involves the accurate measurement of MCH, MCV, Hb A(2) and Hb F values in combination with an understanding of the haematological characteristics of the different types of thalassaemia genes and their interactions. The majority of the common thalassaemia mutations and abnormal haemoglobins can be identified by PCR-based techniques. The main applications of molecular analysis for carrier diagnosis are: the analysis of alpha-thalassaemia mutations by gap-PCR to discriminate between heterozygous alpha-thalassaemia and homozygous alpha-thalassaemia; the identification of beta-thalassaemia mutations for patients requiring prenatal diagnosis and for the prediction of the severity of the clinical phenotype of homozygous beta-thalassaemia; to discriminate between deltabeta-thalassaemia and HPFH deletions by gap-PCR.
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PMID:Screening and genetic diagnosis of haemoglobin disorders. 1249 Feb 10


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