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)

The phenotype of increased Hb A2 typical of beta-thalassaemia (beta-thal) carriers can be reduced to normal or borderline values because of the co-inheritance of a delta-globin gene (HBD, MIM #142000) mutation, which may lead to misinterpretation of diagnostic results. To know the spectrum of delta-globin mutations in the Portuguese population we performed a mutational analysis of the delta-globin gene in a group of 51 Portuguese beta-thal carriers presenting microcytosis, hypochromia and a normal/borderline Hb A2 level and in another group of 15 individuals suspected to have delta-globin structural abnormalities. The heterozygosity for the beta(+)IVS-I-6T-->C (HBB:c. 92+6T>C) mutation was the main cause for the mentioned atypical beta-thal carrier phenotype. Furthermore, eight individuals were double heterozygous for one common beta-thal mutation and the delta(+)Cd27G-->T mutation (Hb A2-Yialousa; HBD:c.82G>T). One of them also presented a novel delta-globin gene promoter mutation,-80G-->A (HBD:c.-130G>A), responsible for about 25% decrease of the promoter activity in transient expression assays. One the other hand, in the other group of 15 individuals suspected to have delta-globin structural abnormalities observed by biochemical methods, some known Hb A2 variants were identified - Hb A2' (HBD:c.49G>C), Hb A2-Babinga (HBD:c.410G>A), and Hb A2-Wrens (HBD:c.295G>A), and the novel Hb A2-Fogo [delta64(E8)(Gly-->Ser); (HBD:c.193G>A)]. This novel Hb A2 variant was observed segregating in linkage with Hb E (HBB:c.79G>A) in a three generation family. In conclusion, six different delta-globin mutations were found, being two of them new molecular defects. All delta-alleles identified were found linked to the expected beta-globin cluster haplotype. All mutations caused a low Hb A2 level and through this could lead to misdiagnosis when inherited together with a beta-thal allele.
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PMID:Mutational spectrum of delta-globin gene in the Portuguese population. 1791 81

We report a retrospective analysis carried out on 23,485 subjects submitted to a screening program from 2000 to 2006. Of these subjects, 3,934 had borderline HbA(2) values from 3.1 to 3.9%; 410 samples, analyzed previously using PCR methods and sequencing because all of these were partners of a carrier of classical beta-thalassemia, were selected for statistical analysis. Of 410 subjects, 94 (22.9%) were positive for a molecular defect in the beta-, delta- or alpha-globin genes. The most prevalent molecular defects were beta IVS1 nt 6 (HBB c.92+6T C), co-inheritance of severe beta thalassemia and delta mutations, beta-promoter mutations and triplication of alpha genes were detected; alpha-thalassemia and Hb-variants were also evident. Borderline HbA(2) is not a rare event in a population with a high prevalence of beta-thalassemia carriers. These data support the necessity to investigate these cases at a molecular level, particularly if the partner is a carrier of beta-thalassemia.
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PMID:Significance of borderline hemoglobin A2 values in an Italian population with a high prevalence of beta-thalassemia. 1860 55

Nondeletional hereditary persistence of fetal hemoglobin (nd-HPFH), a rare hereditary condition resulting in elevated levels of fetal hemoglobin (Hb F) in adults, is associated with promoter mutations in the human fetal globin (HBG1 and HBG2) genes. In this paper, we report a novel type of nd-HPFH due to a HBG2 gene promoter mutation (HBG2:g.-109G>T). This mutation, located at the 3' end of the HBG2 distal CCAAT box, was initially identified in an adult female subject of Central Greek origin and results in elevated Hb F levels (4.1%) and significantly increased Ggamma-globin chain production (79.2%). Family studies and DNA analysis revealed that the HBG2:g.-109G>T mutation is also found in the family members in compound heterozygosity with the HBG2:g.-158C>T single nucleotide polymorphism or the silent HBB:g.-101C>T beta-thalassemia mutation, resulting in the latter case in significantly elevated Hb F levels (14.3%). Electrophoretic mobility shift analysis revealed that the HBG2:g.-109G>T mutation abolishes a transcription factor binding site, consistent with previous observations using DNA footprinting analysis, suggesting that guanine at position HBG2/1:g.-109 is critical for NF-E3 binding. These data suggest that the HBG2:g-109G>T mutation has a functional role in increasing HBG2 transcription and is responsible for the HPFH phenotype observed in our index cases.
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PMID:The Hellenic type of nondeletional hereditary persistence of fetal hemoglobin results from a novel mutation (g.-109G>T) in the HBG2 gene promoter. 1905 Aug 90

Prenatal diagnosis of monogenic diseases, such as cystic fibrosis and beta-thalassemia, is currently offered as part of public health programs. However, current methods based on chorionic villus sampling and amniocentesis for obtaining fetal genetic material pose a risk to the fetus. Since the discovery of cell-free fetal DNA in maternal plasma, the noninvasive prenatal assessment of paternally inherited traits or mutations has been achieved. Due to the presence of background maternal DNA, which interferes with the analysis of fetal DNA in maternal plasma, noninvasive prenatal diagnosis of maternally inherited mutations has not been possible. Here we describe a digital relative mutation dosage (RMD) approach that determines if the dosages of the mutant and wild-type alleles of a disease-causing gene are balanced or unbalanced in maternal plasma. When applied to the testing of women heterozygous for the CD41/42 (-CTTT) and hemoglobin E mutations on HBB, digital RMD allows the fetal genotype to be deduced. The diagnostic performance of digital RMD is dependent on interplay between the fractional fetal DNA concentration and number of DNA molecules in maternal plasma. To achieve fetal genotype diagnosis at lower volumes of maternal plasma, fetal DNA enrichment is desired. We thus developed a digital nucleic acid size selection (NASS) strategy that effectively enriches the fetal DNA without additional plasma sampling or experimental time. We show that digital NASS can work in concert with digital RMD to increase the proportion of cases with classifiable fetal genotypes and to bring noninvasive prenatal diagnosis of monogenic diseases closer to reality.
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PMID:Noninvasive prenatal diagnosis of monogenic diseases by digital size selection and relative mutation dosage on DNA in maternal plasma. 1906 Feb 11

Sickle cell disease (SCD) and beta thalassaemia, caused by lesions that affect the HBB (beta globin gene), form the most common human genetic disorders world-wide, and represent a major public health problem. Inter-individual variation in foetal haemoglobin (HbF) expression is a known and heritable disease modifier; high HbF levels are correlated with reduced morbidity and mortality in both diseases. This review traces our progress in the understanding of the persistence of HbF in adults as a quantitative trait and the genetic approaches used in teasing out the loci contributing to its variability in normal populations and in patients with haemoglobinopathies. Three major loci -- Xmn1-HBG2 single nucleotide polymorphism, HBS1L-MYB intergenic region on chromosome 6q, and BCL11A -- contribute 20-50% of the trait variance in patients with sickle cell anaemia and healthy European Caucasians. It is likely that the remaining trait variance is due to numerous other loci, many contributing modest effects. Identification of the three major loci has not yet been translated into new therapeutic approaches for HbF reactivation but an immediate application would be an improved prediction of one's ability to produce HbF, which in turn, may improve prediction of disease severity.
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PMID:Discovering the genetics underlying foetal haemoglobin production in adults. 1934 2

An Indian Muslim boy was diagnosed with thalassaemia major at 3 months of age. His blood investigations revealed haemoglobin: 5.3 gm%, MCV: 68 fl, MCH 26.6 pg, MCHC: 39%, haemoglobin variant analysis: HbA(2): 2.8%, HbF: 20.3% and HbA: 75.2% (post-transfusion). His fathers' haemoglobin was 10.2 gm%, MCV: 68 fl, MCH: 23.9 pg, MCHC: 35% HbA(2): 4.7%, HbF: 0.7% and HbA: 85.2% and his mothers' haemoglobin was 10.9 gm%, MCV: 67.4 fl, MCH 22.6 pg, MCHC: 33.5%, HbA(2): 5.3%, HbF: 0% and HbA: 85.4%. The boy was found to be compound heterozygote for beta globin gene mutations (HBB:c.92 + 5G > C/HBB:c.93-2A > C). The mutation HBB:c.93-2A > C was inherited from his father. This report confirms the presence of HBB:c.93-2A > C in the Indian subcontinent and has important implications for screening and prenatal diagnosis of beta thalassaemia. This report also supports inclusion of this mutation in the beta globin gene mutation database.
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PMID:Clinical and haematological features in a compound heterozygote (HBB:c.92 + 5G > C/HBB:c.93-2A > C) case of thalassaemia major. 1948 66

When the molecular background of couples requesting prevention is unclear, family analysis and tools to define rare mutations are essential. We report two novel deletion defects observed in an Italian and in a Turkish couple. The first proband presented with microcytic hypochromic parameters without iron deficiency, a normal HbA(2) and an elevated HbF (10.6%). His father presented with a similar phenotype and his wife was heterozygous for the common Mediterranean codon 39 (HBB:c.118C>T) mutation. Having excluded point mutations and common deletions, Multiplex Ligation-dependent Probe Amplification was performed revealing an unknown Ggamma(Agammadeltabeta)(0)-thalassemia defect spanning from the Agamma gene to downstream of the beta-globin gene provisionally named Leiden 69.5 kb deletion. In the second case, the wife presented with a mild thalassemic picture, normal HbA(2), elevated HbF (18.5%) and a beta/alpha globin chain synthesis ratio of 0.62, without iron deficiency or any known beta-thalassemia defect, while the husband was a simple carrier of the common Mediterranean IVS-I-110 (HBB:c.93-21 G>A) mutation. A new large deletion involving the beta-gene and part of the delta-gene was identified by Multiplex Ligation-dependent Probe Amplification provisionally named "Leiden 7.4 kb".
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PMID:Two new beta-thalassemia deletions compromising prenatal diagnosis in an Italian and a Turkish couple seeking prevention. 1973 21

Granulocyte colony-stimulating factor (G-CSF)-mobilized blood stem cells may become the preferable source of hematopoietic stem cells (HSCs) for gene therapy because of the higher yield of cells compared with conventional bone marrow harvesting. A G-CSF-associated risk of splenic rupture has been recognized in normal donors of HSCs, but limited information is available about the G-CSF effect in the presence of splenomegaly and extramedullary hematopoiesis. We investigated the G-CSF effect in a thalassemic mouse model (HBB(th-3)) as compared with a normal strain (C57BL/6), in terms of safety, mobilization efficacy, and distribution of stem cells among hematopoietic compartments. There was no death or clinical sequelae of splenic rupture in G-CSF-treated animals of either strain; however, hemorrhagic infarcts in the spleen were detected with low frequency in G-CSF-treated HBB(th-3) mice (12.5%). HBB(th-3) mice mobilized less effectively than C57BL/6 mice (Lin(-)Sca-1(+)c-Kit(+) cells/microl of peripheral blood mononuclear cells [PBMCs]: 90 +/- 55 vs. 255 +/- 174, respectively, p = 0.01; CFU-GM/ml PBMCs: 390 +/- 262 vs. 1131 +/- 875, p = 0.01) because of increased splenic trapping of hematopoietic stem and progenitor cells (Lin(-)Sca-1(+)c-Kit(+) cells per spleen (x10(5)): 487 +/- 35 vs. 109 +/- 19.6, p = 0.01; CFU-GM per spleen (x10(2)): 1470 +/- 347 vs. 530 +/- 425, p = 0.0006). Splenectomy restored the mobilization proficiency of thalassemic mice at comparable levels to normal mice and resulted in the development of a hematopoietic compensatory mechanism in the thalassemic liver that protected splenectomized mice from severe anemia. Our data imply that, in view of human gene therapy for thalassemia, either multiple cycles or alternative ways of mobilization may be required for a sufficient yield of transplantable HSCs. In addition, strategies to minimize the risk of G-CSF-induced splenic infarcts should be explored in a clinical setting.
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PMID:Mobilization of hematopoietic stem cells in a thalassemic mouse model: implications for human gene therapy of thalassemia. 1979 76

Investigations of naturally occurring mutations, such as the deletional thalassaemias and hereditary persistence of fetal haemoglobins (HPFHs), have brought many insights into human globin switching, but limited data have been reported so far. We selected 15 individuals with elevated fetal haemoglobin (HbF) levels (>5%) from a previous screening of 27 006 Korean individuals and analysed dosage changes of the globin gene cluster using multiplex ligation-dependent probe amplification (MLPA). Dosage changes detected by the MLPA probes were followed up with gap-polymerase chain reaction and sequence analysis. Three subjects were found to have deletions in the globin gene cluster, including a beta-thalassaemia due to deletion of HBB (beta-globin gene), an HPFH due to deletions of HBD (delta-globin gene) and HBB, and an HPFH due to a novel HBG2-HBG1 fusion gene consisting of exons 1 and 2 of HBG2 ((G)gamma-globin gene) and exon 3 of HBG1 ((A)gamma-globin gene). The case with the HBG2-HBG1 fusion suggested the existence of another mechanism for the reactivation of HBG2 and HBG1. The IVS2 of HBG2 and HBG1might play a role in HbF regulation, and combinations of specific polymorphisms could influence the reactivation of these genes in adults.
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PMID:Multiplex ligation-dependent probe amplification screening of isolated increased HbF levels revealed three cases of novel rearrangements/deletions in the beta-globin gene cluster. 1980 30

Hemoglobin (Hb) Yamagata is a rare Hb variant, which has been reported only twice-one case each in Japan and Korea. This variant arises from a Lys --> Asn substitution due to a mutation of AAA to AAC or AAT at codon 133 of the beta-globin gene. This study reports the third case of a patient detected with Hb Yamagata [HBB: c.399A>T; p.Lys133Asn] and discusses the effect of this variant on HbA1c measurement. This variant was detected in a 70-yr-old Korean man with diabetes mellitus during a routine follow-up. The HbA1c concentration determined using Variant ll Turbo (Bio-Rad, USA) was abnormally high at 47.9%. It was impossible to measure the HbA1c level accurately using Variant ll Thalassemia Mode (Bio-Rad, USA). However, the HbA1c levels analyzed by HLC-723 G7 (Tosoh, Japan), Cobas Integra (Roche, Switzerland) and NycoCard (Axis-Shield, Norway) were 5.0%, 8.0%, and 7.9%, respectively. This study shows that Hb Yamagata interferes with the accurate measurement of HbA1c levels in a diabetic patient. Taking these findings into consideration, we think that an immunoassay or affinity chromatography can be used as an alternate method for measuring the HbA1c level in a patient with this variant. In conclusion, a patient can be inferred to have an Hb variant if the HbA1c concentration is abnormally high or low or if there is a discrepancy between the results obtained using different methods, and if the clinical status of the patient suggests the presence of abnormal Hb. Subsequently, the HbA1c values can be determined by methods based on different principles.
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PMID:Hemoglobin Yamagata: hemoglobin variant detected by HbA1c test. 2004 85


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