UMLS:C0019045 - FACTA Search

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Query: UMLS:C0019045 (hemoglobinopathies)
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Effective gene therapy for beta-thalassemia major (beta-TM) requires consistent, high expression of human beta-globin (hbeta-globin) in red blood cells (RBCs). Several groups have now shown that lentiviral (LV) vectors stably transmit the hbeta/hgamma-globin genes and large elements of the locus control region, resulting in correction of the murine thalassemia intermedia (TI) phenotype and survival of mice with the TM phenotype. However, current LVs show variable hbeta/hgamma-globin expression and require a high number of vector copies/cell for a therapeutic effect. To address this, we designed LVs flanked by the chicken hypersensitive site-4 (cHS4) chromatin insulator element and compared them with their "un-insulated" counterparts. We observed a consistent twofold-higher hbeta expression from insulated vectors in single-copy mouse erythroleukemia cell clones, an increase that resulted from reduced position effect variegation (PEV) and increased probability of expression from individual integrants. This effect was confirmed in vivo: an approximately twofold increase in hbeta expression was seen in the RBC progeny of murine hematopoietic stem cells, with significantly higher numbers of hbeta-expressing cells in individual secondary spleen colony-forming units. In summary, cHS4-insulated hbeta-globin LVs showed distinct chromatin barrier activity, resulting in higher, consistent hbeta expression. These studies have important implications for vector design for clinical trials for gene therapy for hemoglobinopathies.
Mol Ther 2007 Oct
PMID:Improved human beta-globin expression from self-inactivating lentiviral vectors carrying the chicken hypersensitive site-4 (cHS4) insulator element. 1762 40

The genetic disorders of hemoglobin, the commonest monogenic diseases, occur at some of their highest frequencies in the developing countries, particularly those of Sub-Saharan Africa and Asia. Although progress towards their control and management continues to be made, the prospects for curing them, apart from marrow transplantation, remain uncertain. In many countries expertise and facilities for their control are extremely limited. Although a great deal can be done to help the situation by developing further North/South and South/South partnerships for disseminating better practice, the major problem for the future lies in the unwillingness of governments and international health agencies to accept that the hemoglobinopathies represent a health burden comparative to that of communicable and other major diseases. However, preliminary analyses suggest that, at least in the case of Asia, this may not be true. Further work of this type, together with more detailed frequency and economic data, is required to provide solid evidence for the health burden posed by the hemoglobin disorders, particularly in the developing world. Unless this is done, the increasingly large populations of patients with these diseases will continue to be neglected.
Curr Mol Med 2008 Nov
PMID:Hemoglobinopathies worldwide: present and future. 1899 45

The oxidative status of cells is determined by the balance between pro-oxidants and antioxidants. Pro-oxidants, referred to as reactive oxygen species (ROS), are classified into radicals and nonradicals. The radicals are highly reactive due to their tendency to accept or donate an electron and attain stability. When cells experience oxidative stress, ROS, which are generated in excess, may oxidize proteins, lipids and DNA - leading to cell death and organ damage. Oxidative stress is believed to aggravate the symptoms of many diseases, including hemolytic anemias. Oxidative stress was found in the beta-hemoglobinopathies (sickle cell anemia and thalassemia), glucose-6-phosphate dehydrogenase deficiency, hereditary spherocytosis, congenital dyserythropoietic anaemias and Paroxysmal Nocturnal Hemoglobinuria. Although oxidative stress is not the primary etiology of these diseases, oxidative damage to their erythroid cells plays a crucial role in hemolysis due to ineffective erythropoiesis in the bone marrow and short survival of red blood cells (RBC) in the circulation. Moreover, platelets and polymorphonuclear (PMN) white cells are also exposed to oxidative stress. As a result some patients develop thromboembolic phenomena and recurrent bacterial infections in addition to the chronic anemia. In this review we describe the role of oxidative stress and the potential therapeutic potential of anti-oxidants in various hemolytic anemias.
Curr Mol Med 2008 Nov
PMID:The role of oxidative stress in hemolytic anemia. 1899 47

Sickle cell disease (SCD) and beta-thalassemia (also referred to as beta-thalassemia) are common hereditary hemoglobinopathies with differing pathophysiologies and clinical courses. However, patients with both diseases exhibit increased platelet and coagulation activation, as well as decreased levels of natural anticoagulant proteins. In addition, they are characterized by thrombotic complications that may share a similar pathogenesis. The pathogenesis of hypercoagulability is likely multifactorial, with contributions from the abnormal red blood cell (RBC) phospholipid membrane asymmetry, ischemia-reperfusion injury, and chronic hemolysis with resultant nitric oxide depletion. More studies are needed to better define the contribution of hemostatic activation to the pathophysiology of SCD and beta-thalassemia. Furthermore, adequately controlled studies using anticoagulants and antiplatelet agents are warranted to define the role of hypercoagulability in specific complications of these diseases.
Curr Mol Med 2008 Nov
PMID:Hypercoagulability in sickle cell disease and beta-thalassemia. 1899 50

Although blood transfusions are important for patients with hemoglobinopathies, chronic transfusions inevitably lead to iron overload as humans cannot actively remove excess iron. The cumulative effects of iron overload lead to significant morbidity and mortality, if untreated. Desferrioxamine (DFO) is the reference-standard iron chelator whose safety and efficacy profile has been established through many years of clinical use. DFO side effects are acceptable and manageable however the prolonged subcutaneous infusion regimen of 5-7 days per week is very demanding and results in poor adherence to therapy. Deferiprone (Ferriprox, L1) is a bidentate molecule, orally administrable three-times/day, licensed in Europe and in other regions but in the USA and Canada, for the treatment of iron overload in patients for whom DFO therapy is contraindicated or inadequate. Preliminary evidences suggest that Deferiprone may be more effective than DFO in chelating cardiac iron. The side effects include gastrointestinal symptoms, liver dysfunction, joint pain, neutropenia and agranulocytosis. A weekly assessment of white blood cell counts is recommended because of the risk of agranulocytosis. Deferasirox is a new, convenient, once-daily oral iron chelator that has demonstrated in various clinical trials good efficacy and acceptable safety profile in adult and pediatric patients affected by transfusion-dependent thalassemia major and by different chronic anemias (SCD, BDA, MDS). The long half-life of Deferasirox (16-18 hours) provides sustained 24 hr iron chelation coverage. The efficacy and safety profile have been evaluated in more than 1000 patients in clinical trials allowing FDA registration. Patient satisfaction with Deferasirox was superior than with DFO therapy.
Curr Mol Med 2008 Nov
PMID:Current status in iron chelation in hemoglobinopathies. 1899 52

Allogeneic hematopoietic cell transplantation (HCT) is currently the only treatment with curative potential for sickle cell disease (SCD) and beta-thalassemia. HCT was first used to treat SCD and thalassemia more than two decades ago, and with increasing experience this treatment modality has shifted from being an experimental intervention to one in which selected patient populations are targeted for treatment. Recent multicenter clinical studies show an event-free survival (EFS) of 85% after human leukocyte antigen (HLA)-identical sibling transplantation for SCD, using conventional myeloablative conditioning with a backbone of busulfan (BU) and cyclophosphamide (CY) [1-3]. Results of HCT for thalassemia show very similar outcomes, with EFS probabilities that range from 81%-87% [4,5]. However, the risk of graft failure, recurrent disease, graft-versus-host-disease (GVHD), infections, and long-term sequelae of chronic GVHD and endocrinopathies related to Fe overload and myeloablative BU limit broader application of this therapy. Non-myeloablative conditioning regimens may offer a lower risk of toxicity, and investigations to identify a regimen that is sufficiently immunosuppressive to ensure stable engraftment of donor cells are ongoing. Alternative sources of donor hematopoietic cells that include HLA-matched unrelated donor (URD) and umbilical cord blood (UCB), are being pursued for hemoglobinopathies, with promising initial results. This review discusses the successes, challenges and future direction of HCT for SCD and thalassemia.
Curr Mol Med 2008 Nov
PMID:Recent advances in bone marrow transplantation in hemoglobinopathies. 1899 53

Beta-thalassemia and sickle cell anemia (SCD) represent the most common hemoglobinopathies caused, respectively, by deficient production or alteration of the beta chain of hemoglobin (Hb). Patients affected by the most severe form of thalassemia suffer from profound anemia that requires chronic blood transfusions and chelation therapies to prevent iron overload. However, patients affected by beta-thalassemia intermedia, a milder form of the disease that does not require chronic blood transfusions, eventually also show elevated body iron content due to increased gastrointestinal iron absorption. Even SCD patients might require blood transfusions and iron chelation to prevent deleterious and painful vaso-occlusive crises and complications due to iron overload. Although definitive cures are presently available, such as bone marrow transplantation (BMT), or are in development, such as correction of the disease through hematopoietic stem cell beta-globin gene transfer, they are potentially hazardous procedures or too experimental to provide consistently safe and predictive clinical outcomes. Therefore, studies that aim to better understand the pathophysiology of the hemoglobinopathies might provide further insight and new drugs to dramatically improve the understanding and current treatment of these diseases. This review will describe how recent discoveries on iron metabolism and erythropoiesis could lead to new therapeutic strategies and better clinical care of these diseases, thereby yielding a much better quality of life for the patients.
Curr Mol Med 2008 Nov
PMID:Regulation of iron absorption in hemoglobinopathies. 1899 51

BCL11A on chromosome 2p16 was recently shown to be a major quantitative trait locus for Hb F level and F-cell number in several populations with or without beta-hemoglobinopathy. We now show that BCL11A isoforms are expressed in K562 cells. Butyrate induction of HBG globin production in K562 is associated with reduced BCL11A. Conversely, augmented expression of BCL11A in K562 cells through transfection of BCL11A expression vector results in more than 50% reduction of HBG promoter transcription activity. This transcription repression can be abrogated by sodium butyrate. BCL11A binds to GGCCGG motif in nucleotide -56 to -51 on the HBG proximal promoter. Together, these data are consistent with BCL11A being able to bind to a core motif in the HBG proximal promoter, recruit and interact with partners to form a repression complex, leading to deacetylation of histones and down-regulation of the HBG transcription.
Blood Cells Mol Dis
PMID:BCL11A represses HBG transcription in K562 cells. 1915 51

Despite the fact that mutations in the human beta-globin gene cluster are essentially point mutations, a significant number of large deletions have also been described. We present here four new large deletions in the beta-globin gene cluster that have been identified on patients displaying an atypical hemoglobin phenotype (high HbF) at routine analysis. The first deletion, which spreads over 2.0 kb, removes the entire beta-globin gene, including its promoter, and is associated with a typical beta-thal minor phenotype. The three other deletions are larger (19.7 to 23.9 kb) and remove both the delta and beta-globin genes. Phenotypically, they look like an HPFH-deletion as they are associated with normal hematological parameters. The precise localization of their 5' and 3' breakpoints gives new insights about the differences between HPFH and (deltabeta)(0)-thalassemia at the molecular level. The importance of detection of these deletions in prenatal diagnosis and newborn screening of hemoglobinopathies is also discussed.
Blood Cells Mol Dis
PMID:Identification and molecular characterization of four new large deletions in the beta-globin gene cluster. 1926 66

Hemoglobinopathies were included in the Brazilian Neonatal Screening Program on June 6, 2001. Automated high-performance liquid chromatography (HPLC) was indicated as one of the diagnostic methods. The amount of information generated by these systems is immense, and the behavior of groups cannot always be observed in individual analyses. Three-dimensional (3-D) visualization techniques can be applied to extract this information, for extracting patterns, trends or relations from the results stored in databases. We applied the 3-D visualization tool to analyze patterns in the results of hemoglobinopathy based on neonatal diagnosis by HPLC. The laboratory results of 2520 newborn analyses carried out in 2001 and 2002 were used. The "Fast", "F1", "F" and "A" peaks, which were detected by the analytical system, were chosen as attributes for mapping. To establish a behavior pattern, the results were classified into groups according to hemoglobin phenotype: normal (N = 2169), variant (N = 73) and thalassemia (N = 279). 3-D visualization was made with the FastMap DB tool; there were two distribution patterns in the normal group, due to variation in the amplitude of the values obtained by HPLC for the F1 window. It allowed separation of the samples with normal Hb from those with alpha thalassemia, based on a significant difference (p < 0.05) between the mean values of the "Fast" and "A" peaks, demonstrating the need for better evaluation of chromatograms; this method could be used to help diagnose alpha thalassemia in newborns.
Genet Mol Res 2009 Mar 31
PMID:Three-dimensional visualization of human hemoglobin phenotypes with HPLC. 1944 Sep 71

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