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)

A chimeric protein capable of binding and neutralizing tumor necrosis factor (TNF) and lymphotoxin was expressed in mice transduced with a replication-incompetent adenoviral vector into which a TNF inhibitor gene had been engineered. Within 3 days following the injection of 10(9) infectious particles, the TNF inhibitor concentration exceeded 1 mg/ml of plasma; this level of expression was maintained for at least 4 weeks, and detectable TNF inhibitory activity was measured 6 weeks after injection of the recombinant virus. Introduction of the artificial gene produced a phenotypic effect comparable to homozygous deletion of the 55-kDa TNF receptor, in that animals were rendered highly susceptible to infection by Listeria monocytogenes, whereas control animals receiving a replication-incompetent virus coding for beta-galactosidase were capable of resisting Listeria challenge. Adenovirus-mediated transfer of a gene encoding a TNF inhibitor offers a practical means of imposing effective, long-term blockade of TNF activity in vivo for investigational and therapeutic purposes.
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PMID:Prolonged and effective blockade of tumor necrosis factor activity through adenovirus-mediated gene transfer. 827 68

We have been developing both local and systemic gene therapy approaches to treat inflammatory and autoimmune diseases. To determine if systemic, constitutive expression of biologically active anti-inflammatory agents is therapeutic and/or has associated toxicity, mouse hematopoietic stem cells were infected with retroviral vectors carrying the genes for human IL-1 receptor antagonist (IL-1Ra), human soluble TNF receptor p75 (sTNFR), or the beta-galactosidase (lacZ) gene, and transplanted into lethally irradiated recipients. The serum levels of human IL-1Ra and human sTNFR in the long-term reconstituted mice, 2-7 months after transplantation, were 596 and 158 ng/ml respectively. The long-term expression of human IL-1Ra had minimal effects on the PBMC profile whereas human sTNFR expression increased the percentage of B220 and Mac.1 stained cells and decreased slightly the specific T cell subsets. The ability of these proteins to protect the transplanted mice from endotoxin treatment was determined by measuring serum interleukin-6 (IL-6) and interleukin-10 (IL-10) responses after LPS injection at 1.5, 3, 4.5 and 24 h after treatment. The IL-1Ra group showed diminished IL-10 levels and less mortality after injection of LPS. These results demonstrate that constitutive, systemic expression of IL-1Ra and sTNFR is able to confer partial protective effects following treatment with endotoxin. These results further demonstrate that gene transfer methods which result in systemic, long-term expression of immunodulatory proteins could be applied to the treatment of inflammatory diseases.
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PMID:Constitutive systemic expression of IL-1Ra or soluble TNF receptor by genetically modified hematopoietic cells suppresses LPS induction of IL-6 and IL-10. 913 39

CD95(FAS/Apo-1) belongs to the family of TNF receptor related molecules and is expressed on many benign and malignant types of cells. CD95 triggering is involved in the apoptotic death of lymphoid cells and may also be important in myelopoiesis. Myeloid leukemia cells are in most cases resistant to CD95 triggering despite expressing the antigen. We reasoned that myeloid leukemic cells can become sensitized to the Fas pathway of cell death if CD95 expression is restored by gene transfer. As a model, we utilized the cell line K562 which does not express CD95 on their cell surface. The gene for CD95 was introduced into K562 cells (by electroporation). As a control, the gene coding for beta-galactosidase was used. The CD95 transfected K562 cells stably expressed CD95, and had a growth pattern comparable to untransfected cells, but still remained resistant to Fas-triggering (tested using recombinant Fas-ligand). Our experiment shows that antigen expression is not a critical determinant of Fas-mediated apoptosis, but further down-stream mechanisms determine the fate of the cells. The transfected cells also had a comparable susceptibility to NK-mediated lysis which shows that the expression of CD95 does not interfere with NK-mediated lysis of target cells.
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PMID:Expression of CD95(FAS) by gene transfer does not sensitize K562 to Fas-killing. 916 3

We previously demonstrated TNF toxicity, at high TNF doses or in the presence of actinomycin D, in the N1E-115 neuronal cell line (N1Es), which expresses only the 55 kDa TNF receptor (TNFR). To determine whether presence of the 75 kDa TNFR increases N1E sensitivity to TNF toxicity, cells were transfected with a 75 kDa TNFR expression construct. However, 75 kDa TNFR protein expression was undetectable in stably transfected N1Es. Further investigation revealed endogenous membrane-associated TNF in this neuronal line. Co-transfection with beta-galactosidase and the 75 kDa TNFR or empty vector (pcDNA3) indicated cell loss in the 75 kDa TNFR-transfected population relative to vector-transfected populations, while inhibition of membrane-associated TNF with a neutralizing antibody led to increased 75 kDa TNFR expression in transiently transfected N1Es. We conclude that neutralization of membrane-associated TNF inhibits its interaction with the introduced 75 kDa TNFR, increasing neuronal survival and promoting 75 kDa TNFR expression. Induced 75 kDa TNFR expression in the presence of membrane-associated TNF and the 55 kDa TNFR results in lymphocyte cell death [J.K. Lazdins, M. Grell, M.R. Walker, K. Woods-Cook, P. Scheurich, K. Pfizenmaier, Membrane tumor necrosis factor (TNF) induced cooperative signaling of the TNFR60 and TNFR80 favors induction of cell death rather than virus production in HIV-infected T cells, J. Exp. Med. 185 (1997) 81-90]. This report demonstrates that membrane-associated TNF and the 75 kDa TNFR similarly contribute to neuronal cell death.
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PMID:Expression of the 75 kDA TNF receptor and its role in contact-mediated neuronal cell death. 981 68

Tumor necrosis factor-alpha (TNF-alpha) has been shown to induce insulin resistance in cultured cells as well as in animal models. The aim of this study was to map the in vivo mechanism whereby TNF-alpha contributes to the pathogenesis of impaired insulin signaling, using obese and lean Zucker rats in which TNF-alpha activity was inhibited through adenovirus-mediated gene transfer. We employed a replication-incompetent adenovirus-5 (Ad5) vector to endogenously express a TNF inhibitor (TNFi) gene, which encodes a chimeric protein consisting of the extracellular domain of the human 55-kDa TNF receptor joined to a mouse IgG heavy chain. Control animals consisted of rats infected with the same titer of adenovirus carrying the lac-z complementary DNA, encoding for beta-galactosidase. There was a significant reduction in plasma insulin and free fatty acid levels in TNFi obese rats 2 days following Ad5 administration. The peripheral insulin sensitivity index was 50% greater, whereas hepatic glucose output was completely suppressed during hyperinsulinemic glucose clamps in TNFi obese animals, with no differences observed between the two lean groups. The improvement in peripheral and hepatic sensitivity to insulin seen in the obese animals was independent of insulin receptor (IR) number and insulin binding affinity for IR. However, TNF-alpha neutralization led to a 2.5-fold increase in tyrosine phosphorylation of IR in skeletal muscle, whereas this was unchanged in liver. There was also a 4-fold increase in particulate protein tyrosine phosphatase activity of skeletal muscle in TNFi obese animals vs. beta-galactosidase controls, whereas protein tyrosine phosphatase activity in liver was unchanged. These results suggest that TNF-alpha is a mediator of insulin resistance in obesity and may modulate IR signaling in skeletal muscle and liver through different pathways. TNF-alpha may affect insulin action in the liver either at sites distal to the IR or indirectly, possibly because of increased provision of gluconeogenic substrates or altered counterregulation. In addition, the Ad5-mediated gene delivery system employed here provides an in vivo model that is efficient and economical for exploring mechanisms involved in TNF-alpha-induced insulin resistance in various genetic models of obesity-linked diabetes.
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PMID:An in vivo model for elucidation of the mechanism of tumor necrosis factor-alpha (TNF-alpha)-induced insulin resistance: evidence for differential regulation of insulin signaling by TNF-alpha. 983 30

Recombinant adenovirus-mediated gene therapy has demonstrated great promise for the delivery of genes to the pulmonary epithelium. However, dose-dependent inflammation and local immune responses abbreviate transgene expression. The purpose of these studies was to determine the role of TNF-alpha and individual TNF receptor signaling to adenovirus clearance and immune responses, and whether coexpression of human IL-10 could reduce inflammation and extend the duration of transgene expression in the lung. beta-Galactosidase expression in mice receiving intratracheal instillation of Adv/beta-gal (adenovirus construct expressing beta-galactosidase) was transient (less than 14 days), but a significant early increase of beta-galactosidase expression was seen in mice lacking either or both TNF-alpha receptors. Absence of TNF-alpha or the p55 receptor significantly attenuated the Ab response to both adenovirus and beta-galactosidase. Human IL-10 expression in the lung suppressed local TNF-alpha production following AdV/hIL-10 (adenovirus construct expressing human IL-10) delivery, but did not lead to increased or prolonged transgene expression when coexpressed with beta-galactosidase. Expression of human IL-10 following AdV/hIL-10 instillation extended at least 14 days, was nonimmunogenic, and suppressed the development of neutralizing Abs against adenoviral proteins as well as against human IL-10. We conclude that TNF-alpha signaling through both the p55 and p75 receptor plays important roles in the clearance of adenoviral vectors and the magnitude of the humoral immune response. Additionally, although coexpression of human IL-10 with beta-galactosidase had only modest effects on transgene expression, we demonstrate that AdV/hIL-10 is well tolerated, has extended expression compared with beta-galactosidase, and is nonimmunogenic in the lung.
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PMID:TNF-alpha receptor signaling and IL-10 gene therapy regulate the innate and humoral immune responses to recombinant adenovirus in the lung. 1060 41

Deficiency or inhibition of tumor necrosis factor (TNF) significantly prolongs hepatic expression of recombinant adenoviral vectors. To explore mechanisms responsible for this observation, the present studies examined the effects of TNF versus TNF receptor 1 (TNFR1) or TNFR2 deficiency on the course of antiviral-immune responses to a replication-deficient, beta-galactosidase-encoding recombinant adenovirus (AdCMV-lacZ). Clearance of AdCMV-lacZ was significantly delayed in TNF-deficient mice. Less pronounced but significant delays in AdCMV-lacZ clearance were observed in TNFR2-deficient but not TNFR1-deficient mice. Numbers of interferon-gamma expressing intrahepatic lymphocytes (IHL) were similar in AdCMV-lacZ-infected, TNF-deficient, TNFR1-deficient, TNFR2-deficient, and control mice. However, IHL isolated from AdCMV-lacZ-infected, TNF-deficient or AdCMV-lacZ-infected, TNFR2-deficient mice exhibited decreased levels of FasL expression and adenovirus-specific cytolytic T lymphocyte (CTL) activity. Similar defects in allo-specific killing of Fas-sensitive hepatocyte targets by TNF-deficient or TNFR2-deficient but not TNFR1-deficient CTL were also noted. No defects in generation of allo-specific cytotoxicity directed against perforin-sensitive target cells were noted in TNF-, TNFR1-, or TNFR2-deficient lymphocytes. These findings indicate that TNF/TNFR2 interactions facilitate generation of FasL-dependent CTL effector pathways that play an important role in in vivo antiviral-immune responses in the liver.
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PMID:The role of TNF-TNFR2 interactions in generation of CTL responses and clearance of hepatic adenovirus infection. 1296 Feb 67

After intravenous injection of replication-deficient adenovirus, hepatocytes are transduced and express high levels of adenovirus-encoded genes. However, adenovirally encoded gene expression is ablated rapidly by CD8+ T-cell-dependent mechanisms. Thus, this model is suitable for examining intrahepatic cytotoxic T lymphocyte (CTL) effector mechanisms. In the present studies, recombinant adenoviruses encoding secreted (human apolipoprotein A-I) or intracellular (beta-galactosidase) gene products were infused into mice with genetic deficiencies affecting the granule exocytosis-, Fas-, or tumor necrosis factor receptor 1 (TNFR1)-mediated pathways of CTL and natural killer cell effector function; the rates of clearance of adenovirus-encoded gene products were assessed. Clearance of secreted or intracellular adenoviral gene products was not delayed in perforin-deficient mice or dipeptidyl peptidase I-deficient mice, which fail to process and activate granzyme A or granzyme B. TNFR1-deficient mice also exhibited no delay in clearance of adenoviral gene products. However, adenoviral clearance from Fas-deficient mice was delayed, and such delays were much greater in mice deficient in both TNFR1 and Fas. In contrast, chimeric mice lacking both hepatic Fas and lymphocyte perforin function exhibited no greater delay in adenoviral clearance than chimeras deficient only in hepatic Fas expression. In conclusion, Fas-dependent mechanisms are required for efficient clearance of virally infected hepatocytes and, in Fas-deficient animals, TNFR1-dependent mechanisms provide an alternative mechanism for hepatic adenovirus clearance. In contrast, perforin- and granule protease-dependent cytotoxicity mechanisms play no apparent role in clearance of adenovirus from the liver.
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PMID:Fas and TNFR1, but not cytolytic granule-dependent mechanisms, mediate clearance of murine liver adenoviral infection. 1561 34

Transfer of B6 T cells to major histocompatibility complex (MHC) class I disparate bm1 x B6 F1 mice leads to the development of hepatic graft-versus-host disease (GVHD) characterized by an active hepatitis with portal and lobular inflammation as well as bile duct inflammation and venulitis. The present studies determined the role of tumor necrosis factor (TNF) in hepatic GVHD. B6 responder cells were cultured with irradiated MHC class I disparate bm1 or syngeneic spleen cells (SpC) in the presence or absence of TNF receptor inhibitor [TNFR-immunoglobulin (Ig)]. Recipient bm1 x B6 F1 mice were irradiated (600 cGy) and reconstituted with 5 x 10(6) T cell-depleted B6 bone marrow cells and 1 x 10(7) B6 SpC. Mice were injected with an adenovirus encoding TNFR-Ig [TNF inhibitor-encoding adenovirus (Adv-TNFi)] or beta-galactosidase (Adv-betagal). Severity of liver GVHD was assessed by a composite histopathological score consisting of the sum of scores for venulitis, lobular hepatitis, and bile duct inflammation. Addition of TNFR-Ig reduced cell proliferation in mixed lymphocyte cultures using B6 responder SpC by 71% +/- 12.8% and interferon-gamma responses by 78% +/- 18%. GVHD-induced "wasting disease" was reduced in Adv-TNFi recipients [4.4%+/-5.2% weight loss (n=11)] compared with Adv-betagal recipients [16.1%+/-7.6% weight loss (n=11; P=0.0004)] 9 days post-transplant. Composite histopathological scores and individual venulitis scores were reduced with the addition of Adv-TNFi. Hepatic CD8+ T cells in the recipients of Adv-TNFi were reduced as compared with recipients of Adv-betagal. In conclusion, Adv-TNFi reduces MHC class I disparate alloproliferative responses and hepatic GVHD.
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PMID:The role of TNF in hepatic histopathological manifestations and hepatic CD8+ T cell alloresponses in murine MHC class I disparate GVHD. 1608 94

Our previous work showed that tumor necrosis factor (TNF)-alpha and FasL induce apoptosis of anterior pituitary cells. To further analyze the effect of these proapoptotic factors, we infected primary cultures from rat anterior pituitary, GH3 and AtT20 cells with first-generation adenoviral vectors encoding TNF-alpha, FasL or, as a control, beta-galactosidase (beta-Gal), under the control of the human cytomegalovirus promoter. Successful expression of the encoded transgenes was determined by immunocytochemistry. Although we observed basal expression of TNF-alpha and FasL in control cultures of anterior pituitary cells, fluorescence-activated cell sorting (FACS) cell cycle analysis showed that the overexpression of TNF-alpha or FasL increases the percentage of hypodiploid lactotropes and somatotropes. Nuclear morphology and TUNEL staining revealed that the cells undergo an apoptotic death process. We detected strong immunoreactivity for TNFR1 and Fas in the somatolactotrope cell line GH3. TNF-alpha, but not FasL, was expressed in control cultures of GH3 cells. The infection of GH3 cells with adenovirus encoding TNF-alpha or FasL increased the percentages of hypodiploid and TUNEL-positive cells. TNF-alpha or FasL immunoreactivity was not observed in the corticotrope cell line AtT20. However, adenovirus encoding TNF-alpha or FasL efficiently transduced these cells and increased the percentages of hypodiploid and TUNEL-positive cells. The expression of beta-Gal was detected in all these cultures but did not affect cell viability. In conclusion, these results suggest that death signaling cascades triggered by TNF receptor 1 (TNFR1) and Fas are present in both normal and tumoral pituitary cells. Therefore, overexpression of proapoptotic factors could be a useful tool in the therapy of pituitary adenomas.
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PMID:Adenoviral vectors encoding tumor necrosis factor-alpha and FasL induce apoptosis of normal and tumoral anterior pituitary cells. 1673 98


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