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 sought to investigate the usefulness of the adeno-associated virus 2 (AAV)-based vectors to suppress the excess production of the human alpha-globin gene product towards developing a treatment modality for beta-thalassemia since accumulation of free alpha-globin reduces the lifespan of red blood cells in these patients. We constructed recombinant AAV virions containing the human alpha-globin gene sequences in antisense orientation driven by the herpesvirus thymidine kinase (TK) promoter, the SV40 early gene promoter, and the human alpha-globin gene promoter, respectively, as well as a bacterial gene for resistance to neomycin (neoR) as a selectable marker. These recombinant virions were used to infect a human erythroleukemia cell line (K562) that express high levels of alpha-globin mRNA. Clonal populations of neoR cells were obtained after selection with the drug G418, a neomycin analogue. Total genomic DNA samples isolated from these cells were analyzed on Southern blots to document stable integration of the transduced neo and alpha-globin genes. Total cellular RNA samples isolated from mock-infected and recombinant virus-infected cultures were also analyzed by Northern blots. Whereas the TK promoter-driven antisense alpha-globin sequences showed no inhibition of expression of the endogenous alpha-globin gene, the SV40 promoter and the alpha-globin gene promoter-driven antisense alpha-globin sequences suppressed the expression of this constitutively over-expressed gene by approximately 29 and 91%, respectively, at the transcriptional level. These studies suggest the feasibility of utilizing the AAV-based antisense gene transfer approach in the potential treatment of beta-thalassemia.
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PMID:Suppression of human alpha-globin gene expression mediated by the recombinant adeno-associated virus 2-based antisense vectors. 829 80

To study the biogenesis of red cell membrane skeleton at various stages of erythroid differentiation, we have chosen the following model systems: a) Rauscher erythroleukemia cell line representing the early stages of differentiation, b) Friend erythroleukemia cells, and c) in vitro cultured human erythroblasts. The latter two systems represent terminally differentiated erythroblasts. Using these model systems, we have shown asynchronous synthesis of membrane proteins during erythroid differentiation. At the early stages of erythroid development, the synthesis of spectrin, ankyrin and band 4.1 proteins is initiated before that of the band 3 protein. Following erythroid induction with erythropoietin and dimethylsulfoxide (DMSO), there is a dramatic increase in the synthesis of the band 3 protein without noticeable changes in the synthesis of other membrane proteins. This increase in band 3 synthesis is accompanied by increased stability and recruitment of the skeletal proteins into the membrane skeleton, leading to increased steady state levels. The progressive increase in band 3 synthesis continues during terminal maturation of erythroblasts. This is accompanied by increased stability and assembly of spectrin and ankyrin on the membrane, despite their reduced synthesis. These results point to a key role for the band 3 protein in anchoring and stabilizing these proteins into the permanent skeletal network. Finally, to detect defects of skeletal biosynthesis, we have extended these studies to a patient with severe hereditary spherocytosis characterized by a combined deficiency of spectrin and ankyrin. We have shown that this combined deficiency is a consequence of reduced ankyrin synthesis and mRNA content representing a thalassemia-like membrane protein mutation.
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PMID:Biogenesis of erythrocyte membrane skeleton in health and disease. 831 23

The ability to generate stable high-titer vectors that give rise to high levels of expression of transduced globin genes in erythroid cells is a prerequisite for effective retroviral-mediated globin gene therapy. The human beta-globin gene with its immediate flanking sequences does not contain all the regulatory elements necessary for regulated high-level and position-independent expression in erythroid cells. The regulatory element known as the beta-globin locus control region (BetaLCR) can provide a linked Beta-globin gene with these properties. However, addition of BetaLCR sequences to a retrovirus carrying a beta-globin gene increases its genetic instability. We have developed a new generation of retroviral vectors in which a human gamma-globin gene is placed under the control of the alphaLCR, the major regulatory element of the alpha-globin gene cluster. We demonstrate that these retroviruses are genetically stable in producer cell lines and can be produced at high titers that exceed 5 x 10(6) colony-forming units (CFU)/mL. In addition, we show that the transduced gamma-globin gene can be expressed in the adult erythroid environment of mouse erythroleukemia (MEL) cells at a level comparable to that of a single endogenous Betamaj-globin gene. These retroviruses can also transduce primary murine bone marrow progenitor cells as efficiently as retroviruses that carry the neomycin resistance (neor) gene. This new generation of globin retroviral vectors may prove useful for gene therapy of human beta-globin gene disorders such as sickle cell disease and beta-thalassemia.
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PMID:Production of genetically stable high-titer retroviral vectors that carry a human gamma-globin gene under the control of the alpha-globin locus control region. 863 Apr 19

A permanent lymphocyte cell line of a heterozygote with Yunnanese (A gamma delta beta)0-thalassemia deletion, associated with an increased production of G gamma globin in adult, was founded using Epstein-Barr virus transformation. The hybrids of the lymphocyte cell and mouse erythroleukemia cell (MEL) were achieved and the hybrids containing human chromosome 11 were selected with the monoclonal antibody 53/6. The subclones containing only either the normal or the abnormal human chromosome 11 were separated and the expression of the human globin genes was studied. Expression of the beta-globin gene, but not the G gamma and A gamma, was observed in the hybrids containing only the normal human chromosome 11, while active expression of the G gamma globin gene was observed in the hybrids containing only the abnormal human chromosome 11. These results have confirmed that the DNA deletion in the beta-globin gene cluster is the cause of persistent active expression of the G gamma globin gene in the Yunnanese mutant.
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PMID:Active expression of G gamma globin gene on chromosome 11 with Yunnanese A gamma delta beta)0-thalassemia deletion in MEL cells. 876 Apr 59

Adeno-associated virus type 2 (AAV), a nonpathogenic human parvovirus, is gaining attention as a vector for potential use in human gene therapy. We and others have described AAV-mediated beta-globin gene transfer and expression in established human and murine erythroleukemia cell lines in vitro. However, successful AAV-mediated globin gene transduction of hematopoietic stem cells and long-term expression in vivo in progeny cells have not been documented. We report here that infection of murine hematopoietic bone marrow cells ex vivo with a recombinant AAV vector containing the genomic copy of a normal human globin gene followed by transplantation of these cells into lethally irradiated congenic mice resulted in efficient gene transfer into hematopoietic cells with long-term repopulating ability as detected by the presence of the human globin gene sequences in bone marrow and spleen in primary recipient mice for at least 6 months. Long-term expression of the human globin gene was also detected in bone marrow, but not in spleen, in primary recipient mice. Furthermore, in secondary-transplant experiments, we were also able to document the presence as well as expression of the transduced human globin gene in mouse bone marrow for up to 3 months. These results provide further support for potential use of the AAV-based vector system in gene therapy of human hemoglobinopathies in general and sickle-cell anemia and beta-thalassemia in particular.
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PMID:Adeno-associated virus type 2-mediated transduction of murine hematopoietic cells with long-term repopulating ability and sustained expression of a human globin gene in vivo. 906 Jun 72

An understanding of the mechanisms that control developmental stage-specific transcription of globin genes offers the promise of successful therapeutic activation of fetal or embryonic beta-type genes in beta-thalassemia syndromes. A large body of evidence supports the notion of conservation of such mechanisms across vertebrate species and validates the use of pre-clinical studies of silencing and activation of fetal or embryonic globin genes in animals. Using globin gene transfections into primary avian erythroid cells and cultured murine erythroleukemia cells, we have studied mechanisms involved in stage-specific embryonic beta-type globin gene silencing and activation. These studies show that 1) methylation of the exact CpG nucleotides that are methylated in normal adult erythroid cells in vivo is capable of blocking transcription of a transfected embryonic globin gene promoter via binding of a methyl DNA binding protein in primary erythroid cells. 2) Activation of embryonic beta-type globin gene transcription in adult erythroid cells by short chain fatty acids is mediated through specific DNA sequences both in the promoter and downstream of the promoter.
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PMID:Silencing and activation of embryonic globin gene expression. 966 29

We report a beta-thalassemia mutation [IVS-II-5 (G-->C)] in a Chinese family. Recently we cloned this beta-globin gene and studied its transient expression in murine erythroleukemia (MEL) cells. Both the thalassemic and normal beta-globin genes were isolated by polymerase chain reaction and TA-vector cloning. When the cloned beta-thalassemic globin gene was introduced into MEL cells, two kinds of spliced cytoplasmic beta-globin RNAs were detected. The predominant RNA was normally spliced, while the less abundant RNA contained an insertion of the first 47 nucleotides of the second intervening sequence localized between exons 2 and 3. These results suggest that the mutation [IVS-II-5 (G-->C)] causes a beta+-thalassemia.
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PMID:The beta+-thalassemia mutation [IVS-II-5 (G-->C] creates an alternative splicing site in the second intervening sequence. 1033 84

Peptide nucleic acids (PNAs) can bind to homopurine/homopyrimidine sequences of double-stranded DNA targets in a sequence-specific manner and form [PNA]2/DNA triplexes with single-stranded DNA D-loop structures at the PNA binding sites. These D-loop structures have been found to have a capacity to initiate transcription in vitro. If this strategy can be used to induce transcription of endogenous genes, it may provide a novel approach for gene therapy of many human diseases. Human [beta] globin disorders such as sickle cell anemia and beta-thalassemia are very common genetic diseases that are caused by mutations in the beta-globin gene. When gamma-globin genes are highly expressed in sickle cell patients, the presence of high levels of fetal hemoglobin (HbF, alpha2gamma2) can compensate for the defective beta-globin gene product and such patients have much improved symptoms or are free of disease. However, the gamma-globin genes are developmentally regulated and normally expressed at very low levels (>1%) in adult blood cells. We have investigated the possibility of inducing gamma-globin gene expression with PNAs. Using PNAs designed to bind to the 5' flanking region of the gamma-globin gene, induction of expression of a reporter gene construct was demonstrated both in vitro and in vivo. More importantly, PNA-mediated induction of endogenous gamma-globin gene expression was also demonstrated in K562 human erythroleukemia cells. This result suggests that induction of gamma-globin gene expression with PNAs might provide a new approach for the treatment of sickle cell disease. PNA-induced gene expression strategy also may have implications in gene therapy of other diseases such as genetic diseases, cancer and infectious diseases.
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PMID:Peptide nucleic acid (PNA) binding-mediated induction of human gamma-globin gene expression. 1037

Human beta-globin disorders, such as sickle cell anemia and beta-thalassemia, are relatively common genetic diseases cause by mutations in the beta-globin gene. Increasing gamma-globin gene expression has been found to greatly reduce the disease symptom. However, the gamma-globin gene is developmentally regulated and normally expressed at high levels only during the fetal stage of human development. We have explored the possibility of activating the gamma-globin gene expression by triplex-forming oligonucleotide (TFO)-directed targeted mutagenesis. Using a psoralen-conjugated TFO designed to bind to a site overlapping with an Oct-1 binding site at the -280 region of the gamma-globin gene, targeted mutagenesis of the Oct-1 binding site has been achieved by transfecting the in-vitro-formed plasmid-oligo complex into human normal fibroblast (NF) cells. The mutation frequency at the target site was estimated to be 20% by direct DNA sequencing analysis. In-vitro protein binding assays indicated that these mutations reduced Oct-1 binding to the target site. In-vivo gene expression assays demonstrated activation of gamma-globin gene expression from these mutations in mouse erythroleukemia (MEL) cells. The levels of the gamma-globin gene expression increased by as much as fourfold in mutants with single base changes. These results suggest that the -280 region of the Agamma-globin gene negatively regulates the gamma-globin gene expression, and mutations at the Oct-1 binding site can lead to activation of the gamma-globin gene and generate the hereditary persistence of fetal hemoglobin (HPFH) condition. This study may provide a novel approach for gene therapy of sickle cell disease. The data may also have implications in gene therapy for other diseases including genetic diseases and cancers by introducing mutations into transcription factor binding sites to alter the levels of target gene expression.
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PMID:Activation of human gamma-globin gene expression via triplex-forming oligonucleotide (TFO)-directed mutations in the gamma-globin gene 5' flanking region. 1072 15

Generally, nonsense codons 50 bp or more upstream of the 3'-most intron of the human beta-globin gene reduce mRNA abundance. In contrast, dominantly inherited beta-thalassemia is frequently associated with nonsense mutations in the last exon. In this work, murine erythroleukemia (MEL) cells were stably transfected with human beta-globin genes mutated within each of the 3 exons, namely at codons 15 (TGG-->TGA), 39 (C-->T), or 127 (C-->T). Primer extension analysis after erythroid differentiation induction showed codon 127 (C-->T) mRNA accumulated in the cytoplasm at approximately 20% of the normal mRNA level. Codon 39 (C-->T) mutation did not result in significant mRNA accumulation. Unexpectedly, codon 15 (TGG-->TGA) mRNA accumulated at approximately 90%. Concordant results were obtained when reticulocyte mRNA from 2 carriers for this mutation was studied. High mRNA accumulation of codon 15 nonsense-mutated gene was revealed to be independent of the type of nonsense mutation and the genomic background in which this mutation occurs. To investigate the effects of other nonsense mutations located in the first exon on the mRNA level, nonsense mutations at codons 5, 17, and 26 were also cloned and stably transfected into MEL cells. After erythroid differentiation induction, mRNAs with a mutation at codon 5 or 17 were detected at high levels, whereas the mutation at codon 26 led to low mRNA levels. These findings suggest that nonsense-mediated mRNA decay is not exclusively dependent on the localization of mutations relative to the 3'-most intron. Other factors may also contribute to determine the cytoplasmic nonsense-mutated mRNA level in erythroid cells. (Blood. 2000;96:2895-2901)
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PMID:Nonsense mutations in the human beta-globin gene lead to unexpected levels of cytoplasmic mRNA accumulation. 1102 27


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