EC:3.2.1.23 - FACTA Search

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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)

Gene therapy provides a potential technique to modify immunity in vitro and therefore may prolong graft survival in vivo. However, viral infection and gene transfer may damage target cells and interfere with biologic function. Viruses, including adenovirus, are known to be capable of modulating apoptosis and initiating cell death by either inducing or suppressing specific processes, depending on the virus and cell system studied. The effect of adenovirus on islet cell viability and function has not been examined in detail. In this study, the dose-dependent effect of an adenoviral vector on islet cell death and glucose-stimulated insulin secretion (GSIS) was investigated to establish a therapeutic window for the dose of viral vector administered. Isolated pancreatic rat islets were incubated with an adenovirus expressing a beta-galactosidase gene (AdHCMVsp1LacZ) at different viral concentrations [multiplicity of infection (MOI) 1:10, 1:100, and 1:1000]. Transfection rate, in vitro and in vivo islet viability, and occurrence of programmed cell death were determined 1, 3, and 7 days after transfection. Islets, transfected at MOI 1:10 and 1:100, demonstrated apoptosis not significantly different from nontransfected controls. Islets, transfected at MOI 1:1000, demonstrated a significant increase in apoptosis at 24 hr, which decreased over 7 days of culture. The increase in apoptosis was not reflected by a significant decrease in in vitro GSIS of surviving islet cells, as assessed by stimulation index following in vitro perifusion. SCID or nude mice transplanted with AdlacZ-transfected islets (MOI 1:100 and 1:1000) remained normoglycemic for > or = 30 days. These results demonstrate that transfection of islets using adenoviral vectors can be manipulated such that efficient expression of the gene product encoded by the transfected gene (beta-galactosidase) can be achieved at lower transfecting concentrations of the adenoviral vector (MOI 1:10, 20.2%; MOI 1:100, 30.7%) while preserving islet function. This efficiency of transfection may allow pretransplant manipulation of isolated islet cells without vector-specific alteration of islet function. In cases where high virus concentrations are required for efficient gene transfer (adequate expression of the transgene product), a deleterious effect of the vector on islet cell function, with increased cell loss due to increased apoptotic events, is predicted. Using the AdlacZ vector, cell loss by apoptotic mechanisms appears limited to the first days following coculture with high viral concentrations, and does not appear to influence in vitro or in vivo cell function of the surviving islet cells.
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PMID:Adenoviral transfection of isolated pancreatic islets: a study of programmed cell death (apoptosis) and islet function. 920 42

Morphology and functional capacity of homotopically transplanted extensor digitorum longus muscles (EDL) of adult SCID mice that received 1 x 10(6) myoblasts [stably transfected to express nuclear localizing beta-galactosidase under the control of the myosin light-chain 3F promoter/enhancer] 2 days posttransplantation were evaluated 9 weeks after transplantation, to determine whether the injection of exogenous myoblasts had an effect on muscle regeneration. Regenerated muscles that received exogenous myoblasts were compared to similarly transplanted muscles that received (a) no further treatment, or (b) sham injection of the vehicle (without myoblasts) and to unoperated EDL. Nine weeks after myoblast transfer, myofibers containing donor-derived nuclei could be identified after staining with X-gal solution. Judging from its size and poor functional performance compared to muscles subjected to transplantation only, sham injection provided a secondary trauma to the regenerating muscle from which it failed to fully recover. In comparison to the sham-injected muscle, the myoblast-injected muscles weighed 61% more and had 50% more myofibers and 82% more cross-sectional area occupied by myofibers at the muscles' widest girths. Their absolute twitch and tetanic tensions were threefold and twofold greater, respectively, and their specific twitch and tetanic tensions were 71% and 50% greater, respectively, than those of sham-injected muscles. In many parameters, the regenerating muscle subjected to myoblast transfer equaled or exceeded those of muscles that were transplanted only (received only one trauma). Absolute twitch and tetanic tensions were 73% and 65% greater, respectively, and specific twitch tensions of the muscles receiving myoblasts were 50% greater than forces generated by muscles subjected to whole-muscle transplantation only.
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PMID:Mass and functional capacity of regenerating muscle is enhanced by myoblast transfer. 924 Mar 74

E1-deleted adenovirus (Ad) vectors expressing the human coagulation factor IX (hFIX) or the bacterial beta-galactosidase (lacZ) were injected intravenously into various strains of immunocompetent (C57BI/6, BALB/c, CD1, CBA/J, C3H) and immunodeficient (BALB/c-nu/nu, C57BI/6-nu/nu, SCID, NIH-bg-nu-xid) mice. Regular analysis of mouse sera and tissues showed a persistent expression of both transgenes in immunodeficient mice, while detection diminished very rapidly in immunocompetent mice. The mechanisms responsible for the transient detection of the two transgenes were however not identical. Rapid decline of lacZ expression was correlated with a rapid decrease of viral DNA sequences, and consequently to the induction of a cellular immune response to the lacZ antigen. In contrast, absence of detectable levels of serum hFIX in immunocompetent animals was not associated with a loss of viral DNA but was strictly correlated with the induction of anti-hFIX antibodies. Surprisingly, anti-hFIX antibodies were never detected in C57BI/6 mice, leading to prolonged detection of hFIX. These results suggest that cellular immunity to viral antigens plays a minor role in the early extinction of transgene expression and illustrate the influence of the cellular (eg lacZ) or humoral (eg hFIX) immunity to transgene-encoded products on the persistence of transgene expression.
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PMID:Adenovirus-mediated gene transfer: influence of transgene, mouse strain and type of immune response on persistence of transgene expression. 927 25

Myoblast transplantation is a potential treatment for Duchenne muscular dystrophy. One of the problems possibly responsible for the limited success of clinical trials is the rapid death of the myoblasts after transplantation. To investigate this problem, myoblasts expressing beta-galactosidase were injected in the tibialis anterior muscles of mice. Beta-galactosidase activity was reduced by 74.7% after 3 days. Myoblast death observed at 3 days was reduced to 57.2% when the hosts were irradiated. This result suggested that host cells were contributing to this phenomenon. Transplantation in SCID and FK506-treated mice did not reduce cell death, indicating that mortality was not due to an acute specific reaction. In contrast, administration of the anti-LFA-1 (TIB-213) mAb markedly reduced myoblast death at 3 days without altering leukocyte tissue infiltration. We postulated that neutrophils were mediating myoblast mortality by an LFA-1-dependent mechanism. To test this hypothesis, IL-1beta-activated myoblasts were loaded with 6-carboxy-2',7'-dichlorodihydrofluorescein diacetate, di(acetoxymethylester) (DCFH), a marker for oxidative stress. Addition of neutrophils and zymosan-activated serum resulted in a time-dependent DCFH fluorescence; this neutrophil-induced oxidation was considerably inhibited by TIB-213. These results indicate that an effective control of the inflammatory reaction will be necessary for any new clinical trials of myoblast transplantation and suggest that neutrophil-mediated myoblast injury occurs by an LFA-1-dependent pathway.
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PMID:Prevention by anti-LFA-1 of acute myoblast death following transplantation. 927 46

Highly purified CD34++CD38-Lin- hematopoietic progenitors isolated from human fetal liver were infected with the murine retroviral vector, MFG nls-LacZ, which encodes a modified version of the Escherichia coli beta-galactosidase gene. Progenitors that were cocultured with the packaging cell line could reconstitute human bone marrow or thymus implanted in SCID-hu mice. Expression of the beta-galactosidase gene was observed in primitive and committed clonogenic progenitors, mature myeloid, B-lineage cells, and T-lineage cells for up to 4 months after injection into SCID-hu mice. Furthermore, hematopoietic reconstitution by genetically modified progenitor cells could be achieved by the injection of the cells generated from as few as 500 CD34++CD38-Lin- cells, suggesting efficient retroviral gene transfer into fetal liver progenitors.
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PMID:Successful reconstitution of human hematopoiesis in the SCID-hu mouse by genetically modified, highly enriched progenitors isolated from fetal liver. 934 33

We have evaluated the feasibility of gene transduction using replication-defective adenovirus vector as a novel therapy for medullary thyroid carcinoma (MTC), a thyroid C cell neoplasm. Replication-defective adenoviruses were constructed to express murine interleukin-2 (mIL-2) gene and Escherichia coli beta-galactosidase (beta-gal; lacZ) gene under the control of the human cytomegalovirus (CMV) promoter (AdCMVmIL2, AdCMVbeta-gal) by homologous recombination. The efficiency of transduction was evaluated using AdCMVbeta-gal at different conditions. The gene transduction efficiency was dependent on multiplicity of infection, duration of exposure to the virus, and viral concentration. The expression of functional mIL-2 in transduced tumor cells was verified both in vitro and in vivo. Two cell lines (rat MTC and mMTC) secreted large amounts of functional mIL-2 after transduction, as tested in cytotoxic T lymphocyte (CTL) L-2 cells. When AdCMVmIL2-infected mMTC cells were injected s.c. into their host animals, tumors developed in 2 of 10 animals, in contrast to 9 of 10 animals injected with AdCMVbeta-gal-infected mMTC cells and all 10 animals injected with parental mMTC cells. Moreover protected animals developed a long lasting immunity against mMTC tumor cells and their splenocytes, showing cytotoxicity to parental tumor cells, and active natural killer (NK) cell activity. BALB/c-SCID (severe combined immune deficiency) mice were also used to evaluate the function of NK cells in antitumor activities. No tumor developed in SCID mice injected with AdCMVmIL2-infected cells, whereas all animals injected with either AdCMVbeta-gal-infected or parental mMTC cells developed tumors. Our data indicate that IL-2 production by MTC cells leads to rejection in syngeneic animals and suggest that both cytotoxic T cells and NK cells may play an important role. In addition, transduction of adenoviral vectors into tumor cells produces some nonspecific antitumor effects.
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PMID:Immunotherapy for medullary thyroid carcinoma by a replication-defective adenovirus transducing murine interleukin-2. 944 31

Ex vivo gene therapy of primary myopathies, based on autologous transplantation of genetically modified myogenic cells, is seriously limited by the number of primary myogenic cells that can be isolated, expanded, transduced, and reimplanted into the patient's muscles. We explored the possibility of using the MyoD gene to induce myogenic conversion of nonmuscle, primary cells in a quantitatively relevant fashion. Primary human and murine fibroblasts from skin, muscle, or bone marrow were infected by an E1-deleted adenoviral vector carrying a retroviral long terminal repeat-promoted MyoD cDNA. Expression of MyoD caused irreversible withdrawal from the cell cycle and myogenic differentiation in the majority (from 60 to 90%) of cultured fibroblasts, as defined by activation of muscle-specific genes, fusion into contractile myotubes, and appearance of ultrastructurally normal sarcomagenesis in culture. 24 h after adenoviral exposure, MyoD-converted cultures were injected into regenerating muscle of immunodeficient (severe combined immunodeficiency/beige) mice, where they gave rise to beta-galactosidase positive, centrally nucleated fibers expressing human myosin heavy chains. Fibers originating from converted fibroblasts were indistinguishable from those obtained by injection of control cultures of lacZ-transduced satellite cells. MyoD-converted murine fibroblasts participated to muscle regeneration also in immunocompetent, syngeneic mice. Although antibodies from these mice bound to adenoviral infected cells in vitro, no inflammatory infiltrate was present in the graft site throughout the 3-wk study period. These data support the feasibility of an alternative approach to gene therapy of primary myopathies, based on implantation of large numbers of genetically modified primary fibroblasts massively converted to myogenesis by adenoviral delivery of MyoD ex vivo.
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PMID:High efficiency myogenic conversion of human fibroblasts by adenoviral vector-mediated MyoD gene transfer. An alternative strategy for ex vivo gene therapy of primary myopathies. 959 68

Dog myoblasts obtained from muscle biopsies were infected in vitro with a defective retroviral vector containing a cytoplasmic beta-galactosidase (beta-Gal) gene. These myoblasts were initially transplanted in the irradiated muscles of SCID mice and beta-Gal positive muscle fibers were observed. beta-Gal myoblasts were also transplanted back either in the donor dogs (autotransplantation model) or in unrelated recipient dogs (allotransplantation model). Following these myoblast injections, a rapid inflammatory reaction developed within the muscle as indicated by an expression of P-selectin and of pro-inflammatory cytokine mRNAs (interleukin 6 (IL-6) and transforming growth factor beta (TGF-beta), and by a neutrophil infiltration. Following either auto- or allotransplantation in inadequately or non-immunosuppressed dogs, a specific immune reaction also developed within 2 weeks as indicated by the infiltration of CD4+ and of CD8+ lymphocytes, the increased expression of IL-10 and granzyme B mRNAs and the presence of antibodies reacting with the injected cells. Some dogs were immunosuppressed with several combinations of FK506, cyclosporine (CsA) and RS-61443. In dogs immunosuppressed with CsA combined with RS-61443, only a few myoblasts and myotubes expressing beta-Gal were observed 1-2 weeks after the transplantation, but no muscle fibers expressing beta-Gal were observed after 4 weeks, and antibodies against the injected cells were formed. In dogs immunosuppressed with FK506 alone, although no antibodies against the injected cells were produced, there were no small cells and no muscle fibers expressing beta-Gal 1 month after the transplantation. However, FK506 triggered diarrhea and vomiting in dogs. When the dogs were immunosuppressed with FK506 combined with CsA and RS-61443, muscle fibers expressing beta-Gal were present 4 weeks after the transplantation and no antibodies reacting with donor myoblasts were detected. These results indicate that the combination of three immunosuppressive agents (i.e., FK506, CsA and RS-61443) is effective in controlling the specific immune reactions following myoblast transplantation in dogs and they underline that the outcome of myoblast transplantation is dependent in part on an adequate immunosuppression. These results obtained here in normal dogs may justify myoblast transplantation in dystrophic dogs despite the side effects of FK506.
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PMID:Myoblast transplantation in non-dystrophic dog. 960 63

The mechanisms by which dendritic cell (DC) vaccines prime host T cells in vivo was analyzed. Mice were immunized with syngeneic bone marrow-derived DC and as surrogate antigen beta-galactosidase (beta-gal) was used. DC either pulsed with peptide, loaded with beta-gal antigen or gene-modified induced beta-gal-specific cytotoxic T lymphocytes (CTL) and moderate rejection of an in vivo challenge with beta-gal expressing tumors. In addition, beta-gal-specific CTL lysed the syngeneic DC that were used as vaccines. Using SCID mice reconstituted with F1 lymphocytes, direct priming by gene-modified DC vaccines was demonstrated by the presence of beta-gal-specific CTL of the haplotype exclusively expressed by DC while indirect priming by host antigen-presenting cells (APC) was shown by the detection of CTL of the haplotype exclusively present on host APC and absent on DC vaccines. Since DC immunization in syngeneic mice was associated with an increase in NK1.1+/Ly49C- cells and detectable lysis of DC in vitro by lymphokine-activated killer cells, DC vaccines appear to interact with host natural killer cells as well as with antigen-specific T cells. These effector cells in turn may lyse DC vaccines thereby leading to the release of antigens that can be taken up by host APC.
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PMID:Direct and indirect T cell priming by dendritic cell vaccines. 993 4

A 60-Mb murine chromosome consisting of murine pericentric satellite DNA and two bands of integrated marker and reporter genes has been generated de novo in a rodent/human hybrid cell line (mM2C1). This prototype mammalian artificial chromosome platform carries a normal centromere, and the expression of its beta-galactosidase reporter gene has remained stable under selection for over 25 months. The novel chromosome was transferred by a modified microcell fusion method to mouse [L-M(TK-)], bovine (P46) and human (EJ30) cell lines. In all cases, the chromosome remained structurally and functionally intact under selection for periods exceeding 3 months from the time of transfer into the new host. In addition, the chromosome was retained in three first-generation tumours when L-M(TK-) cells containing the chromosome were xenografted in severe combined immunodeficiency mice. These data support that a murine satellite DNA-based artificial chromosome can be used as a functional mammalian artificial chromosome and can be maintained in vivo and in cells of heterologous species in vitro.
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PMID:Stability of a functional murine satellite DNA-based artificial chromosome across mammalian species. 1021 27

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