Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.2.1.23 (beta-galactosidase)
 14,648 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A DNA clone of HIV-1, JH3, was isolated from a Japanese patient with hemophilia and the gag and env genes were sequenced. The nucleotide and deduced amino acid sequences were similar to those reported and showed high divergence in the env gene, particularly in the extracellular domain of the env. The genetic variation of JH3 isolated from a Mongolian was within the range of those of isolates from whites and blacks. The gag and env polypeptides were efficiently expressed in E. coli as fusion proteins with beta-galactosidase, and the products were shown to be useful as diagnostic reagents.
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PMID:Nucleotide sequences of gag and env genes of a Japanese isolate of HIV-1 and their expression in bacteria. 266 97

The authors established a means of effective gene transfer into human thyroid follicular cells via retroviral-mediated mechanisms. Using specific harvest and culture techniques, we investigated the selection of human thyroid cells in serum-free media. Normal adult human thyroid tissue was obtained after thyroidectomy from fresh specimens sent for frozen-section analysis. Follicular cells were harvested and grown in hormonally defined, serum-free media to prevent fibroblast growth with selection for differentiated function assessed by immunohistochemical staining for thyroglobulin. The efficiency of gene transfer into human thyroid cells was compared between the zen-beta-gal and LNL6 retroviral vectors. The zen-beta-gal retrovirus encodes the product beta-galactosidase, and gene expression was demonstrated by histochemical staining in 0.1% to 1% of the cells. An improved efficiency of 2% to 3% transduction was demonstrated using the LNL6 vector which carries the gene for neomycin resistance (NEO-R). Polymerase chain reaction (PCR) identification of the integrated proviral sequence (NEO-R gene) with Southern blot confirmation was used to quantitate LNL6 transductions and compare confluent versus actively dividing cell cultures. Follicular cell gene therapy has significant potential for treating congenital or acquired diseases of the thyroid as well as disorders of circulating proteins such as diabetes, hypopituitarism, and hemophilia. The ability to culture human follicular cells and perform effective gene transfer is paramount in the eventual realization of thyroid gene therapy.
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PMID:Gene transfer into human thyroid follicular cells. 796 61

The authors investigate the in vitro component of an ex situ strategy for gene transfer into the thyroid gland using DNA complex and retroviral vectors. Canine follicular cells harvested by unilateral lobectomy and grown in low-serum media proliferated in culture and retained their differentiated state as evidenced by morphology and thyroglobulin expression. Transient and "stable" gene transfer in thyroid cells were evaluated by comparing DNA and retroviral transduction techniques. Effective gene transfer and expression was demonstrated by histochemical staining for the marker gene product beta-galactosidase. The efficiency of transduction was assessed using an amphotropic retroviral vector carrying the neomycin resistance gene and semiquantitative polymerase chain reaction (PCR) identification of integrated proviral sequences. This analysis demonstrated a proviral frequency in transduced cultures of 10% to 30%. Transduced cells showed no change in morphology or growth patterns and maintained differentiated function as assessed by antibody staining for thyroglobulin. The thyroid gland is an attractive target for somatic gene therapy because of its large protein-synthetic capacity, sensitivity to hormonal regulation, and proportionately high blood flow. Follicular cell gene therapy may be useful not only for treating congenital or acquired diseases of the thyroid, but also disorders of circulating proteins such as hypopituitarism, hemophilia, and diabetes.
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PMID:DNA- and viral-mediated gene transfer in follicular cells: progress toward gene therapy of the thyroid. 841 42

The expression of exogenous genes in long-lived primary T cells is potentially beneficial for the treatment of various diseases including cancer, AIDS, genetic defects of the lymphoid compartment, and systemic enzyme deficiencies such as hemophilia. One approach for genetic modification of T cells is to introduce therapeutic genes into hematopoietic stem cells that would give rise to cells of the lymphoid lineage. Efficient gene transfer and expression in stem cells is often problematic, however. A more direct approach is to introduce the genes into mature primary T lymphocytes since the transferred genes can be maintained and expressed for long periods by long-lived peripheral T cells. In this report, we describe the adoptive transfer into SCID mice of both murine and human primary T cells that have been efficiently transduced with exogenous genes. Primary murine T cells transduced with a retroviral vector containing the human adenosine deaminase (ADA) gene persisted for at least 5 months in lymphoid organs of SCID mice, continuously expressing the exogenous gene. Primary human T cells were also used as target cells for transfer of the beta-galactosidase (lacZ) gene. Expression of the lacZ gene could be detected in over 20% of the transduced primary T cells before adoptive transfer into SCID mice. Transduced human T cells were injected into SCID mice intraperitoneally (ip), and the beta-galactosidase activity could be detected in cells collected from peritoneal exudate washes of recipient mice 6 weeks post-injection. These results demonstrate the availability of a murine model in which the long-term effects of expression of exogenous genes in both murine and human T cells can be tested.
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PMID:A murine model for genetic manipulation of the T cell compartment. 891 90

Recombinant adeno-associated virus vectors (rAAV) show promise in preclinical trials for the treatment of genetic diseases including hemophilia. Liver-directed gene transfer results in a slow rise in transgene expression, reaching steady-state levels over a period of 5 weeks concomitant with the conversion of the single-stranded rAAV molecules into high-molecular-weight concatemers in about 5% of hepatocytes. Immunohistochemistry and RNA in situ hybridization show that the transgene product is made in about approximately 5% of hepatocytes, suggesting that most rAAV-mediated gene expression occurs in hepatocytes containing the double-stranded concatemers. In this study, the mechanism(s) involved in stable transduction in vivo was evaluated. While only approximately 5% of hepatocytes are stably transduced, in situ hybridization experiments demonstrated that the vast majority of the hepatocytes take up AAV-DNA genomes after portal vein infusion of the vector. Two different vectors were infused together or staggered by 1, 3, or 5 weeks, and two-color fluorescent in situ hybridization and molecular analyses were performed 5 weeks after the infusion of the second vector. These experiments revealed that a small but changing subpopulation of hepatocytes were permissive to stable transduction. Furthermore, in animals that received a single infusion of two vectors, about one-third of the transduced cells contained heteroconcatemers, suggesting that dimer formation was a critical event in the process of concatemer formation. To determine if the progression through the cell cycle was important for rAAV transduction, animals were continuously infused with 5'-bromo-2'-deoxyuridine (BrdU), starting at the time of administration of a rAAV vector that expressed cytoplasmic beta-galactosidase. Colabeling for beta-galactosidase and BrdU revealed that there was no preference for transduction of cycling cells. This was further confirmed by demonstrating no increase in rAAV transduction efficiencies in animals whose livers were induced to cycle at the time of or after vector administration. Taken together, our studies suggest that while virtually all hepatocytes take up vector, unknown cellular factors are required for stable transduction, and that dimer formation is a critical event in the transduction pathway. These studies have important implications for understanding the mechanism of integration and may be useful for improving liver gene transfer in vivo.
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PMID:Nonrandom transduction of recombinant adeno-associated virus vectors in mouse hepatocytes in vivo: cell cycling does not influence hepatocyte transduction. 1072 54

Transplantation of disaggregated myoblasts from normal donor to the muscles of a diseased host, or reimplantation of genetically modified host myoblasts, has been suggested as a possible route to therapy for inherited myopathies such as Duchenne muscular dystrophy, or to supply missing proteins that are required systemically in diseases such as hemophilia. With two exceptions, studies of myoblast transfer in the mouse have involved transplantation of donor myoblasts isolated from adult or neonatal skeletal muscle satellite cells. In this study we present evidence that thymic myoid cells are capable of participating in the regeneration of postnatal skeletal muscle, resulting in the expression of donor-derived proteins such as dystrophin and retrovirally encoded proteins such as beta-galactosidase within host muscles. This leads us to conclude that thymic myoid cells may provide an alternative to myoblasts derived from skeletal muscle as a source of myogenic cells for myoblast transfer.
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PMID:Thymic myoid cells as a source of cells for myoblast transfer. 1103 69

Hemophilia is a particularly attractive model for developing a gene transfer approach for the treatment of disease. The protein is very well characterized, the genes are cloned and available, and there are large and small animal models of the disease. Moreover, in contrast to many diseases, there is no requirement for a specific target tissue for gene delivery, and the gene product itself does not require precise regulation of expression. Earlier efforts to establish a gene transfer approach to the treatment of hemophilia had failed to achieve the twin goals of long-term expression at levels that were adequate to result in phenotypic improvement of the disease. We have exploited advances in vector development that occurred in the mid-1990s to establish an experimental basis for an AAV (adeno-associated viral vector)-mediated gene transfer approach to the treatment of hemophilia B. Based on the observation that introduction of an AAV vector into skeletal muscle could result in sustained expression of beta-galactosidase, we engineered an AAV vector expressing human factor IX and demonstrated in immunodeficient mice that intramuscular injection of the vector resulted in long-term expression of the secreted transgene product factor IX. Subsequently, we generated an AAV vector expressing canine factor IX; intramuscular injection into dogs with severe hemophilia B resulted in a dose-dependent increase in circulating levels of factor IX. The animal treated at the highest dose showed prolonged expression (>3 years and still under observation) at a level (70 ng/ml, 1.4% of normal circulating levels of factor IX) likely to result in phenotypic improvement in humans. Detailed studies in tissue culture using human myotubes have shown that muscle cells are capable of executing the posttranslational modifications required for activity of factor IX, and that the specific activity of myotube-synthesized factor IX is similar to that of hepatocyte-synthesized material, although some details of posttranslational processing differ. Based on these and other safety and efficacy studies, a clinical trial of AAV-mediated, muscle-directed gene transfer for hemophilia B has been initiated. The study has a dose-escalation design, with three subjects to be enrolled in three dose cohorts beginning with a dose of 2 x 10(11) vg/kg. Results in the initial dose cohort showed no evidence of toxicity associated with vector administration or transgene expression. Analysis of muscle biopsies done on injected tissue showed clear evidence of gene transfer by PCR and Southern blot and of gene expression by immunocytochemistry. The general characteristics of muscle transduction appear similar in humans and in other animal models. The goal of dose escalation is to find a dose that is nontoxic but that results in circulating levels of factor IX >1% in all patients.
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PMID:AAV-mediated gene transfer for hemophilia. 1179 24