Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0019045 (hemoglobinopathies)
 2,704 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Gene therapy is a novel approach under investigation for the treatment of genetic diseases, cancer and AIDS. Hematopoietic stem cells would be the target cell for correction of hemoglobinopathies, immune deficiencies and lysosomal storage diseases. Retroviral vectors derived from murine leukemia viruses have been used most extensively for gene delivery, but are limited in their capacity to transduce pluripotent human hematopoietic stem cells. In a trial of gene transfer for adenosine deaminase (ADA)-deficient severe combined immunodeficiency (SCID), three neonates were treated with infusion of autologous umbilical cord blood CC34+ cells. Up to 3 years later, a low number of leukocytes are still being produced containing the inserted ADA gene, with evidence of selective accumulation of transduced T lymphocytes. Further successful applications of gene therapy will require development of more efficient methods of gene transfer into stem cells.
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PMID:Gene therapy for hematopoietic and immune disorders. 897 10

The hematology and oncology service at Birmingham Children's Hospital was established in the late 1960s and now is one of the largest in the United Kingdom. It provides comprehensive care for the entire range of childhood malignancies, coagulation disorders, and hemoglobinopathies and other hematological disorders, and undertakes bone marrow transplant and megatherapy/peripheral blood stem cell procedures. Research includes clinical trials of treatments of childhood cancers; molecular biology studies on leukemia, Hodgkin's disease, neuroblastoma, and sarconas; childhood cancer epidemiology, and geographical and racial incidence; and treatment of hemophilia and molecular investigation of coagulation disorders. These activities involve collaboration with local, national, and international research groups.
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PMID:Pediatric oncology and hematology in Birmingham, England. 993 68

The past year's important advancements in the ocular manifestations of cardiovascular and hematologic diseases are reviewed. Systemic changes related to blood pressure and carotid artery disease are commonly manifested on the ophthalmic examination. Ocular ischemic changes have been observed in patients with unusual aortic or congenital cardiac disorders. The ophthalmologist plays an important role in the detection of patients who are at risk for cardiovascular and cerebrovascular events. The hematologic disorders affecting the eye are subdivided into benign and malignant categories. A spectrum of diseases that include sickle cell hemoglobinopathy, aplastic anemia, leukemia, lymphoma, and multiple myeloma are discussed. With increased patient survival time after bone marrow transplantation, secondary ophthalmic complications are being identified. Although the ocular findings in the hematologic maladies are diverse, they may be an indication of serious systemic complications and have significant visual consequences.
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PMID:Ocular manifestations of cardiovascular and hematologic disorders. 1015 Aug 35

We have analyzed the factors associated with engraftment in 216 recipients of T-cell depleted allogeneic HLA identical sibling marrow transplants using Campath 1 monoclonal antihuman lymphocyte (CD52) antibodies. The patient population consisted of 168 patients with hematologic malignancies, 26 with severe aplastic anemia (SAA), and 22 with hemoglobinopathies, half of whom received marrow treated in vitro with Campath-1M (IgM) and half received marrow with Campath-1G (IgG2b isotype). Patients with durable engraftment had fast hematopoietic recovery: SAA patients reached ANC > 0.5 x 10(6)/L on Day 14; those with leukemia attained ANC > 0.5 x 10(6)/L on Days 18, 17, and 15 for ANLL, ALL and CML respectively, while patients with thalasemia reached ANC > 0.5 x 10(6)/L on Day 21. Overall, 24 patients (17 with leukemia, 4 with SAA, and 3 with thalassemia) suffered graft failure: 10 patients (all grafted with Campath-1M) rejected their grafts, while 14 others (9 grafted with Campath-1M, and 5 with 1G isotype) never engrafted (p = 0.009). Multivariate analysis revealed that neither pretransplant protocol, nor stage of disease or type of antibody used, donor sex and ABO match had any impact on engraftment. The variables favorably associated with engraftment were older age (p = 0.030, RR = 1.016) and CFU-GM number (p = 0.013, RR = 1.001). Patients with ANLL or SAA had a better chance to engraft (p = 0.027, RR = 1.400; and p = 0.003, RR = 2.677, respectively) compared to patients with thalassemia (p = 0.001, RR = 0.551). A higher concentration of Campath-1 antibody in vitro and in vivo adversely affected engraftment. Our data show that satisfactory engraftment can be achieved in patients transplanted with Campath-1 treated marrow allografts. However, despite the measures undertaken to prevent rejection, graft failure still poses a problem. Further pretransplant immunosuppression and perhaps more selective T-cell depletion may reduce the increased graft failure in these patients.
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PMID:Engraftment of marrow allografts treated with Campath-1 monoclonal antibodies. 1039 Jan 97

Although most of the diagnostic applications of flow cytometry bring forth examples of leukocyte immunophenotyping for immunodeficiency diseases and leukemia-lymphoma diagnosis, the same technology has improved medical assessment of diseases affecting the red cell and erythropoiesis. Flow cytometric methods were first applied to laboratory hematology with the improvement in reticulocyte counting and the creation of the immature reticulocyte fraction for better anemia evaluation and therapeutic monitoring. A more recent improvement attributable to flow cytometry is accurate detection of fetal red cells in the evaluation of FMH hemorrhage. The same method used in the detection of fetal RBCs based on HbF content measurement using monoclonal antibodies also offers the potential for enumeration of F cells, which promises to have use in therapeutic monitoring of patients with sickle cell disease and the evaluation of other hemoglobinopathies and myelodysplasia. Other clinical uses of flow cytometric RBC analysis include nonisotopic red cell survival studies, sensitive blood group typing, sensitive detection of immune-mediated hemolytic diseases, and evaluation of parasitic diseases whose life cycle involves intracellular RBC infestation. This article summarizes red cell flow cytometry, particularly as it impacts the areas of immunohematology and laboratory hematology, and points to areas of potential future contribution of this technology to diagnostic medicine.
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PMID:Diagnostic utility of red cell flow cytometric analysis. 1177 Feb 90

With the advent of the era of International Space Station (ISS) and Mars exploration, it is important more than ever to develop means to cure genetic and acquired diseases, which include cancer and AIDS, for these diseases hamper human activities. Thus, our ultimate goal is to develop protocols for gene therapy, which are suitable to humans on the earth as well as in space. Specifically, we are trying to cure the hemoglobinopathies, beta-thalassemia (Cooley's anemia) and sickle cell anemia, by gene therapy. These well-characterized molecular diseases serve as models for developing ex vivo gene therapy, which would apply to other disorders as well. For example, the procedure may become directly relevant to treating astronauts for space-anemia, immune suppression and bone marrow derived tumors, e.g. leukemia. The adeno-associated virus serotype 2 (AAV2) is a non-pathogenic human parvovirus with broad host-range and tissue specificity. Exploiting these characteristics we have been developing protocols for recombinant AAV2 (rAAV)-based gene therapy. With the rAAV constructs and hematopoietic stem cell (HSC) culture systems in hand, we are currently attempting to cure the mouse model of beta-thalassemia [C57BL/6- Hbbth/Hbbth, Hb(d-minor)] by HSC transplantation (HST) as well as by gene therapy. This paper describes the current status of our rAAV-gene therapy research.
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PMID:Developing protocols for recombinant adeno-associated virus-mediated gene therapy in space. 1269 49

DNA methylation provides a major epigenetic code (besides histone modification) of the lineage- and development-specific genes (such as regulators of differentiation in the hematopoietic lineages) that control expression of normal cells. However, DNA methylation is also involved in malignancies because aberrant methylating gene activity occurs during leukemic transformation. Thus, genes such as tumor suppressor genes, growth-regulatory genes, and adhesion molecules are often silenced in various hematopoietic malignancies by epigenetic inactivation via DNA hypermethylation. This inactivation is frequently seen not only in transformed cell lines but also in primary leukemia cells. Because this defect is amenable to reversion by pharmacologic means, agents that inhibit DNA methylation have been developed to specifically target this hypermethylation defect in leukemia and preleukemia cases. The most clinically advanced agents, the azanucleosides 5-azacytidine and 5-aza-2'-deoxycytidine (decitabine), were discovered more than 25 years ago, when their methylation-inhibitory activities, even at low concentrations, became apparent. Although both of these agents, like cytarabine, had been clinically used until then at high doses, the redevelopment of these agents for low-dose schedules has revealed very interesting clinical activities for treating myelodysplasia (MDS) and acute myeloid leukemia (AML). Because these diseases occur mostly in patients over 60 years of age, low-dose schedules with these compounds provide a very promising approach in such patient groups by virtue of their low nonhematologic toxicity profiles. In the present review, we describe the development of treatments that target DNA hypermethylation in MDS and AML, and clinical results are presented. In addition, pharmacologic DNA demethylation may be viewed as a platform for biological modification of malignant cells to become sensitized (or resensitized) to secondary signals, such as differentiating signals (retinoids, vitamin D3) and hormonal signals (eg, estrogen receptor in breast cancer cells, androgen receptor in prostate cancer cells). Finally, an in vitro synergism between the reactivating potency of demethylating agents and inhibitors of histone deacetylation has been tested in several pilot studies of AML and MDS treatment. Finally, gene reactivation by either group of compounds results in therapeutically meaningful reactivation of fetal hemoglobin in patients with severe hemoglobinopathies, extending the therapeutic range of derepressive epigenetic agents to nonmalignant hematopoietic disorders.
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PMID:DNA methylation as a therapeutic target in hematologic disorders: recent results in older patients with myelodysplasia and acute myeloid leukemia. 1548 40

This article summarizes the progress of hematology in the recent tens years to show that experimental hematology used to pick up the 'hints' from clinical problems as the renewal of research directions and targets in experimental studies continuously. As the feedback, the results from lab investigations inserted into clinical practice and eventually made a quick modernization of hematology, which was actually a good model for the "translational research". The past few decades have witnessed tremendous advances in our understanding of normal hematopoiesis where genes dictate, epigenetics regulate, transcription factors mediate, and stem cells self-renew and differentiate. Dissection of disease pathogenesis not only elucidates molecular basis of disorders including hemoglobinopathy, aplastic anemia, hemophilia, hematopoietic malignancies such as leukemia and myeloproliferative disorders, but also provides therapeutic targets for drug development. Introduction of targeted therapies and combinatory targeting therapies greatly benefits hundreds of thousands of patients, and even turns acute promyelocytic leukemia from highly fatal to highly curable. In the 21st century the experimental hematology is entering the era of genomics and system biomedicine, and the pace of progress extrapolates to a prediction of hematologic neoplasms control in this century.
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PMID:[Experimental hematology bridging the gap between laboratory and clinic: hope of hematology]. 1831 92

The concept of introducing genes into human cells for therapeutic purposes developed nearly 50 years ago as diseases due to defects in specific genes were recognized. Development of recombinant DNA techniques in the 1970s and their application to the study of mouse tumor viruses facilitated the assembly of the first gene transfer vectors. Vectors of several different types have now been developed for specific applications and over the past decade, efficacy has been demonstrated in many animal models. Clinical trials began in 1989 and by 2002 there was unequivocal evidence that children with severe combined immunodeficiency could be cured by gene transfer into primitive hematopoietic cells. Emerging from these successful trials was the realization that proto-oncogene activation by retroviral integration could contribute to leukemia. Much current effort is focused on development of safer vectors. Successful gene therapy applications have also been developed for control of graft-versus-host disease and treatment of various viral infections, leukemias, and lymphomas. The hemophilias seem amenable to gene therapy intervention and informative clinical trials have been conducted. The hemoglobin disorders, an early target for gene therapy, have proved particularly challenging although ongoing research is yielding new information that may ultimately lead to successful clinical trials.
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PMID:Development of gene therapy for blood disorders. 1844 Dec 45

Allogeneic and autologous hematopoietic stem cell transplantation (HSCT) has become a therapeutic option for an increasing number of patients with otherwise incurable leukemias, solid tumors, immunodeficiencies, hemoglobinopathies and metabolic diseases. For patients requiring an allogeneic transplant, the addition of unrelated cord blood units and partially matched family member donors as alternate stem cell sources has increased the chances that an appropriate donor can be identified. In addition, new approaches to stem cell graft engineering are yielding insights into potential cellular immune therapies, which may decrease the adverse effects of HSCT such as graft-versus-host disease (GVHD) and harness the alloimmune graft-versus-leukemia effect. Novel conditioning regimens, primarily reduced intensity and non-myeloablative regimens, allow patients with significant co-morbidities to undergo transplantation with reduced morbidity and mortality. Combinations of immune-modulatory cytokines and monoclonal antibodies with autologous and allogeneic transplantation are among the advances being explored in contemporary HSCT.
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PMID:Advances in pediatric hematopoietic stem cell transplantation. 1892 94


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