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Target Concepts:
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Query: UMLS:C0039730 (
thalassemia
)
10,305
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The year 2000 saw the first successful treatment of a genetic disorder by gene therapy. Pediatric patients with
X-linked severe combined immunodeficiency
disorder (SCID-X1) received autologous CD34+ hematopoietic cells following ex vivo gene transfer using a retroviral vector, with subsequent demonstration of improved immune responses. A number of preclinical and clinical studies have been conducted with the aim of developing gene therapy for hemophilia, Fanconi anemia, sickle cell disease, beta-
thalassemia
, chronic granulomatous disease, and other inherited hematological disorders. The greatest advances in novel approaches toward treatment of hematological disorders have been made in hemophilia, with 3 current phase I clinical trials ongoing. Two trials are investigating the safety and feasibility of utilizing either an ex vivo, non-viral gene transfer technique or an intravenous infusion of a retroviral vector to treat adults with severe hemophilia A (factor VIII deficiency). The third study involves intramuscular administration of an adeno-associated viral (AAV) vector for expression of factor IX in adult patients with hemophilia B. Results from this study and from preclinical studies preceding the trial demonstrate that it is possible to safely administer high doses of a viral vector in vivo.
...
PMID:Gene therapy for hereditary hematological disorders. 1217 74
The past 3 years have been characterized by a number of impressive advances as well as setbacks in gene therapy for genetic disease. Children with
X-linked severe combined immunodeficiency
disorder (SCID-X1) have shown almost complete reconstitution of their immune system after receiving retrovirally transduced autologous CD34+ hematopoietic stem cells (HSCs). However, two of 11 treated patients subsequently developed a leukemia-like disease probablydue to the undesired activation of an oncogene. Gene transfer to HSCs resulted in substantial correction of immune function and multi-lineage engraftment in two patients with adenosine deaminase (ADA)-SCID. Several Phase I clinical trials for treatment of hemophilia A and B have been initiated or completed. Partial correction of hemophilia A, albeit transient, has been reported by ex vivo gene transfer to autologous fibroblasts. Intramuscular injection of adeno-associated viral (AAV) vector to patients with severe hemophilia B resulted in evidence of Factor IX gene transfer to skeletal muscle and a separate trial based on hepatic infusion of AAV vector is ongoing. Sustained therapeutic levels of coagulation factor expression have been achieved in preclinical models using retroviral, lentiviral, AAV and high capacity adenoviral vectors. Efficient lentiviral gene transfer to HSC in murine models of beta-
thalassemia
and sickle cell disease demonstrated sustained phenotypic correction.
...
PMID:Update on gene therapy for hereditary hematological disorders. 1503 Feb 82
Although hematopoietic cell gene therapy using retroviral vectors has recently achieved success in clinical trials, safety issues regarding vector insertional mutagenesis have emerged. Vector insertion, resulting in transcriptional activation of proto-oncogenes, played a role in the development of lymphoid leukemia in an
X-linked severe combined immunodeficiency
trial, and caused myeloid clonal dominance in a trial for chronic granulomatous disease. These events have raised the question of whether gene therapy for other disorders such as beta-
thalassemia
and sickle cell disease may hold a similar risk. In this study, we prospectively evaluated whether gamma-globin lentiviral vectors containing enhancer elements from the beta-globin locus control region could alter the expression of genes near the vector insertion. We studied this question in primary, clonal murine beta-thalassemic erythroid cells, where globin regulatory elements are highly active. We found an overall incidence of perturbed expression in 28% of the transduced clones, with 11% of all genes contained within a 600-kilobase region surrounding the vector-insertion site demonstrating altered expression. This rate was higher than that observed for a lentiviral vector containing a viral long-terminal repeat (LTR). This is the first direct evidence that lentiviral vectors can cause insertional dysregulation of cellular genes at a frequent rate.
...
PMID:Globin lentiviral vector insertions can perturb the expression of endogenous genes in beta-thalassemic hematopoietic cells. 1819 19
Virus-based vectors are widely used in hematopoietic stem cell (HSC) gene therapy, and have the ability to integrate permanently into genomic DNA, thus driving long-term expression of corrective genes in all hematopoietic lineages. To date, HSC gene therapy has been successfully employed in the clinic for improving clinical outcomes in small numbers of patients with
X-linked severe combined immunodeficiency
(SCID-X1), adenosine deaminase deficiency (ADA-SCID), adrenoleukodystrophy (ALD),
thalassemia
, chronic granulomatous disease (CGD), and Wiskott-Aldrich syndrome (WAS). However, adverse events were observed during some of these HSC gene therapy clinical trials, linked to insertional activation of proto-oncogenes by integrated proviral vectors leading to clonal expansion and eventual development of leukemia. Numerous studies have been performed to understand the molecular basis of vector-mediated genotoxicity, with the aim of developing safer vectors and lower-risk gene therapy protocols. This review will summarize current information on the mechanisms of insertional mutagenesis in hematopoietic stem and progenitor cells due to integrating gene transfer vectors, discuss the available assays for predicting genotoxicity and mapping vector integration sites, and introduce newly-developed approaches for minimizing genotoxicity as a way to further move HSC gene therapy forward into broader clinical application.
...
PMID:Stem cell gene therapy: the risks of insertional mutagenesis and approaches to minimize genotoxicity. 2219 47
Ex-vivo gene transfer of autologous haematopoietic stem cells in patients with monogenic diseases of the bone marrow has emerged as a new therapeutic approach, mainly in patients lacking a suitable donor for transplant. The encouraging results of initial clinical trials of gene therapy for primary immunodeficiencies were tempered by the occurrence of genotoxicity in a number of patients. Over the last decade, safer viral vectors have been developed to overcome the risk of insertional mutagenesis and have led to impressive clinical outcomes with considerably improved safety. We review the efforts in specific immunodeficiencies including adenosine deaminase deficiency,
X-linked severe combined immunodeficiency
, chronic granulomatous disease and Wiskott Aldrich syndrome. Major recent progress has also been made in haemoglobinopathies, such as beta-
thalassaemia
, sickle cell disease and Fanconi anaemia, and also specific lysosomal storage diseases, which, although not strictly bone marrow specific conditions, have been effectively treated by bone marrow-based treatment. The success of these recent studies and the advent of new technologies, such as gene editing, suggest that gene therapy could become a more generally applied treatment modality for a number of haematopoietic disorders.
...
PMID:Gene therapy for monogenic disorders of the bone marrow. 2604 77
