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

We have used gene transfer vectors derived from a replication-defective mutant of herpes simplex virus type 1 (HSV-1) expressing the hepatitis B virus surface antigen (HBsAg), Escherichia coli beta-galactosidase (beta-gal), or canine factor IX (cFIX) from the immediate early promoter of human cytomegalovirus (hCMV) to infect mouse liver by direct injection or through the portal vein. By either route, high levels of transgene expression were demonstrated by the detection of immunoreactive HBsAg or cFIX in the circulation and by histochemical detection of beta-gal activity in situ. The results were striking in that the serum level of cFIX reached 10% of the normal murine levels. Although the level of transgene expression from the hCMV promoter was transient, a significant number of persistent vectors could be rescued from the livers of recipient mice up to 2 months after inoculation. Replacement of the hCMV promoter with the HSV-1 latency-associated transcript (LAT) promoter resulted in reduced but prolonged expression of both HBsAg and cFIX. The very high level of factor IX expression suggests that clinically useful gene transfer may eventually be feasible through direct vector delivery to the liver.
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PMID:Direct gene transfer to the liver with herpes simplex virus type 1 vectors: transient production of physiologically relevant levels of circulating factor IX. 131 45

Hemophilia B is an X chromosome-linked recessive bleeding disorder. To develop a somatic gene therapy for this disease, we have examined whether mouse skeletal myoblasts can serve as efficient vehicles for systemic delivery of recombinant factor IX. When mouse myoblasts (C2C12) transduced with a Moloney murine leukemia virus-based vector containing the bacterial beta-galactosidase gene were injected into mouse skeletal muscles, they fused with the existing and regenerating myofibers and continued to express beta-galactosidase. C2C12 myoblasts that were infected with recombinant retroviruses containing a human factor IX cDNA secreted biologically active human factor IX cDNA secreted biologically active human factor IX into the culture medium at a rate of 2.6 micrograms per 10(6) cells per day. Myotubes derived from these cells in culture continued to express human factor IX (0.68 micrograms/day from myotubes derived from 10(6) C2C12 cells). After injection of the transduced C2C12 myoblasts into skeletal muscles of mice, the systemic level of recombinant human factor IX was found to be as high as approximately 1 microgram/ml of serum. These results provide the rationale for using skeletal myoblasts as an efficient gene delivery vehicle in the somatic gene therapy for hemophilia B.
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PMID:Expression of human factor IX in mice after injection of genetically modified myoblasts. 156 26

Retroviral vectors were used to transduce recombinant DNA encoding firefly luciferase, Escherichia coli beta-galactosidase or human factor IX into fetal rat hepatocytes in primary culture. Hepatocytes were transduced optimally during a restricted time interval, 2-4 days post-plating. Although efficient and stable expression of reporter gene products was observed in vitro, it was affected differentially by culture conditions (plating density, media constituents) and chemical modulators of hepatocyte growth and differentiation (gelatin, hydrocortisone, isobutylmethylxanthine). Cultured cells, mock-infected or infected with a luciferase-expressing vector, were harvested non-enzymatically and injected subcutaneously into the dorsal neck fascia of neonatal syngeneic rats. Tissue isolated from injection sites one week later contained hepatocyte foci. In animals transplanted with infected cells, the preliminary results suggest that luciferase activity was present at these sites in proportion to the numbers of injected cells. These findings and previous observations made with hepatocytes from neonatal and adult primary cultures, indicate that from day 19 in utero through maturity the transient temporal 'period of susceptibility' to infection in vitro is independent of the developmental state of starting tissue. Transplantability of cultured fetal hepatocytes infected with retroviral vectors and stably expressing reporter gene products suggests that such cells might provide promising models for liver gene therapy.
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PMID:Retroviral vector infection and transplantation in rats of primary fetal rat hepatocytes. 166 41

A human factor IX cDNA clone isolated from a liver cDNA library constructed in phage lambda gt11 vector was shown to express factor IX protein in Escherichia coli. A factor IX immunospecific protein of 46.8 kDa was expressed, but was not a beta-galactosidase-factor IX fusion protein. Expression was seen when the factor IX cDNA was cloned into two different vector systems, lambda gt11 and pUC9, in both orientations with respect to the vector lacZ promoter. The expression of factor IX was not under control of the lacZ promoter of either vector system. In addition, when the factor IX cDNA fragment was subcloned in both orientations into a promoterless cloning vector (p CPP3), the factor IX cDNA fragment demonstrated promoter activity when inserted in only one orientation resulting in expression of chloramphenicol acetyl transferase in E. coli and Bacillus subtilis. A DNA computer search of the N-terminal sequences of the factor IX gene revealed prokaryotic-like promoter and ribosome-binding site (RBS) sequences with strong homology to the E. coli consensus sequences. The predicted sites homologous with prokaryotic promoter and RBS consensus sequences are followed by an in-frame methionine which could correspond to the translation start codon of the expressed factor IX. This report provides the first evidence that a eukaryotic gene encodes the information necessary for both transcription and translation to control gene expression in a prokaryotic host.
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PMID:Evidence for prokaryotic transcription and translation control regions in the human factor IX gene. 296 65

We have used molecular conjugates containing combinations of DNA, adenovirus, polylysine, and transferrin to transfect primary cells derived from canines with hemophilia B (factor IX deficiency), as well as a canine epithelial cell line. Transfection of canine hemophilia B fibroblasts with molecular conjugates resulted in efficient transfection and expression of luciferase DNA-adenovirus-polylysine (AdpL) conjugates or luciferase DNA-adenovirus-polylysine-transferrin (hTfpL/AdpL) conjugates. No expression in canine hemophilia B fibroblasts was evident after exposure to DNA alone, or DNA conjugated with polylysine and transferrin. Transfection efficiencies of 50% or more could be demonstrated in cells transfected with a beta-galactosidase reporter gene as part of an hTfpL/AdpL molecular conjugate. Transfection with canine factor IX AdpL conjugates or canine factor IX hTfpL/AdpL conjugates resulted in factor IX expression for more than 2 weeks in vitro in hemophilia B canine fibroblasts. Maximum levels of expression of over 700 ng of canine factor IX/10(6) cells/24 hr were demonstrated in fibroblasts after transfection with canine factor IX hTfpL/AdpL conjugates. Similar conjugates were used to transfect hemophilia B canine bone marrow stromal cells and Madin-Darby canine kidney cells that also expressed canine factor IX. The use of molecular conjugates to transfect primary cells may be feasible as a means of in vitro or in vivo gene therapy for hemophilia B, and can be tested in the canine hemophilia B model.
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PMID:Efficient transfection of primary cells in a canine hemophilia B model using adenovirus-polylysine-DNA complexes. 801 46

The serpin enzyme complex receptor (SECR) expressed on hepatocytes binds to a conserved sequence in alpha 1-antitrypain (alpha 1-AT) and other serpins. A molecular conjugate consisting of a synthetic peptide (C1315) based on the SECR binding motif of human alpha 1-AT covalently coupled to poly-L-lysine was used to introduce reporter genes into hepatoma cell lines in culture. This conjugate condensed DNA into spheroidal particles 18-25 nm in diameter. When transfected with the SECR-directed complex containing pGL3, Hep G2 cells that express the receptor, but not Hep G2 cells that do not, expressed a peak luciferase activity of 538,731 +/- 144,346 integrated light units/mg protein 4 days after transfection. Free peptide inhibited uptake and expression in a dose-dependent manner. Complexes of DNA condensed with polylysine or LC-sulfo-N-succinimidyl-3-(2-pyridyldithio)propionate-substituted polylysine were ineffective. Transfection with a plasmid encoding human factor IX produced expression in Hep G2 (high) and HuH7 cells that express SECR but not Hep G2 (low) cells that lack the receptor. Fluorescein-labeled C1315 peptide labeled 9-31% of Hep G2 (high), 10-14% of HuH7, and 0.6-3.4% of Hep G2 (low) cells, and when the lac Z gene was transfected, only these cells expressed beta-galactosidase. SECR-mediated gene transfer gives efficient, specific uptake and high-level expression of three reporter genes, and the system merits further study for gene therapy.
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PMID:Gene transfer into hepatoma cell lines via the serpin enzyme complex receptor. 927 36

The anti-CD40 ligand antibody MR-1, and macrophage-depleting liposomes were tested for their ability as transient immunosuppressive agents to: (1) prolong transgene expression; and (2) permit redosing after recombinant adenovirus infusion of mice. To test for effect on transgene duration, mice were infused with recombinant adenovirus coding for human factor IX (AdFIX), and plasma FIX levels monitored over time. Treatment with either agent significantly prolonged transgene expression. Persistence was accompanied by inhibition of anti-adenovirus (anti-Ad) IgG, and decreased IL-10 and IFN-gamma production from splenic lymphocytes re-exposed to virus particles in vitro. To test for effect on redosing, mice were given a primary infusion of recombinant adenovirus coding for bacterial beta-galactosidase (Ad beta gal), followed by secondary and tertiary infusions of AdFIX on days 24 and 63. Mice that had received MR-1 had low to undetectable anti-Ad on day 24, and efficient transduction occurred. Furthermore, FIX levels endured in these mice, with 40% retention of FIX on day 63, in contrast to rapid loss in naive controls. On day 63, the continuance of negligible anti-Ad levels correlated with successful tertiary transduction. These results suggest that both macrophage depletion and CD40 ligand blockade inhibit immune responses to recombinant adenovirus to slow decline of transgene expression, while only CD40 ligand blockade inhibits anti-Ad antibody generation sufficiently to allow redosing to the liver.
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PMID:Effects of macrophage depletion and anti-CD40 ligand on transgene expression and redosing with recombinant adenovirus. 961 66

In utero somatic gene therapy in the later stages of pregnancy may allow targeting of organ systems which are difficult to reach later in life and to prevent the development of tissue damage otherwise caused by the early onset of inherited diseases. We report here on the percutaneous delivery of two adenoviral vectors, containing the beta-galactosidase reporter gene and the human Factor IX gene respectively, to the fetal liver and circulation by ultrasound-guided umbilical vein puncture similar to procedures used in human pregnancy. Vector spread, as detected by PCR analysis for the beta-galactosidase encoding vector, was found in almost all fetal and neonatal organs and in the maternal liver. Expression of the beta-galactosidase transgene was detected in many fetal tissues by RT-PCR. High beta-galactosidase production was shown by immuno-histochemistry predominantly in the liver, where about 30percent of the hepatocytes stained positive, and in the adrenal cortex. Production of factor IX was determined by ELISA in the plasma of treated fetuses and newborn lambs and reached at birth up to 80percent of the normal human plasma concentration. This demonstrates a very hopeful proof of principle for the development of prenatal treatment of many genetic diseases but also requires more detailed investigations with respect to the observed systemic spread of the vector.
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PMID:Successful expression of beta-galactosidase and factor IX transgenes in fetal and neonatal sheep after ultrasound-guided percutaneous adenovirus vector administration into the umbilical vein. 1045 27

Skeletal muscle is a privileged target for long-term rAAV-mediated gene transfer in mouse, rat, dog and non-human primates. Intramuscular injections of rAAV encoding human factor IX in hemophilia B patients have been initiated, based on promising results gathered in affected dogs. We found that intramuscular rAAV administration in rats resulted in restricted transduction essentially along the myofibers axis with poor lateral diffusion. This suggested that the transduction rate might be limited by the ability of the virus to reach sites distant from the injection point. We tested whether hyaluronidase, an enzyme which dissociates the extracellular matrix, could enhance vector diffusion when injected in the rat muscle before administration of rAAV encoding either nuclear-localized beta-galactosidase (rAAVCMVnlsLacZ) or the human alpha-1-antitrypsin (rAAVCMVhAAT) under the control of the cytomegalovirus immediate--early promoter (CMV). The results showed that pretreatment of the rat anterior tibialis muscle with hyaluronidase resulted in: (1) a larger diffusion of the virus indicated by an increase in the area containing LacZ-transduced fibers, and (2) a two- to three-fold increase of transduction efficiency measured by the number of LacZ-positive fibers or by the hAAT serum concentration. We also provide evidence that hyaluronidase was well tolerated and was not associated with short- or long-term toxicity evaluated by morphological studies. Finally, in our experimental conditions, hyaluronidase did not promote rAAV dissemination to other organs as assessed by PCR to detect vector sequences. We conclude that pretreatment of skeletal muscle by hyaluronidase, a clinically available reagent, was harmless and resulted in a consistent and significant increase in rAAV diffusion and transduction levels.
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PMID:Hyaluronidase enhances recombinant adeno-associated virus (rAAV)-mediated gene transfer in the rat skeletal muscle. 1098 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


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