EC:3.6.1.3 - FACTA Search

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Query: EC:3.6.1.3 (ATPase)
65,361 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A transgenic mouse model for hepatocarcinoma has been previously produced by targeting SV40 T-antigen expression to the liver. To evaluate the perturbation of cell death occurring during hepatocarcinogenesis, we examined the Fas-induced apoptosis on hepatocytes expressing T-antigen. Whereas anti-Fas antibody induced apoptosis in primary cultured normal hepatocytes, they imparted a weak cytotoxicity on primary cultured hepatocytes expressing T-antigen. This resistance of hepatic Fas-mediated apoptosis appears to result in an enhancement of a protective mechanism involving the protein kinase C signaling pathway rather than in a down-regulation of Fas-antigen expression. We further demonstrated that anti-Fas antibody does not have as efficient a lethal effect in T-antigen transgenic mice as in wild-type mice. The livers of transgenic mice injected with anti-Fas mAbs showed large intact regions with a few scattered apoptotic bodies: these regions strictly corresponded with carcinoma nodules, expressing high level of T-antigen. Our results describe a novel function for SV40 T-antigen which could contribute to viral pathogenesis by protecting infected cells against the host apoptotic defense mechanism.
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PMID:Fas-dependent apoptosis is impaired by SV40 T-antigen in transgenic liver. 756 65

Perforin- and Fas-based cytolytic pathways are two major mechanisms of cell-mediated cytotoxicity. Recently, we have shown that an inhibitor of vacuolar type H+-ATPase, concanamycin A (CMA), inhibits perforin-based cytotoxic activity, mostly due to accelerated degradation of perforin by an increase in the pH of lytic granules. Here we show that CMA failed to inhibit the cytolytic activity of CD4+ CTL clone and perforin-deficient CD8+ CTL clone, which exclusively mediate Fas-based cytotoxicity, although CMA inhibited acidification and induced drastic vacuolation of cytoplasmic granules in these clones. In a wide range of alloantigen-specific CTL, a significant amount of the lysis of Con A blasts from normal mice and of Fas-positive tumor cells remained unaffected even in excess concentrations of CMA. However, CMA almost completely inhibited the lysis of Con A blasts from lpr mice and of Fas low expressing or negative tumor cells. Cytolysis by alloantigen-specific CD8+ CTL derived from gld mice was completely prevented by CMA. Furthermore, CMA-insensitive cytolysis exerted by CD8+ CTL clone was completely inhibitable by soluble Fas molecules. Thus, these data clearly indicate not only that CMA-insensitive cytolysis mediated by alloantigen-specific CTL is Fas dependent, but also that CMA is a selective inhibitor to block only the perforin-based killing pathway. In contrast, brefeldin A blocked the Fas-based cytotoxicity, but only marginally reduced the perforin-based cytotoxicity. Moreover, CMA and brefeldin A in combination completely abrogated all cytolytic activity of alloantigen-specific CTL. Taken together, these results reveal that CTL mainly exert perforin-based cytotoxicity and complementary Fas-based cytotoxicity, and that CMA is a powerful tool to clarify the contributions of the two distinct cytolytic pathways.
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PMID:Concanamycin A, a powerful tool for characterization and estimation of contribution of perforin- and Fas-based lytic pathways in cell-mediated cytotoxicity. 862 2

To examine whether apoptosis related proteins are present in skeletal muscles we studied biopsied muscles immunohistochemically and by Western blot analysis. Biopsied muscles from patients with several disorders were studied with anti-Fas antibody and anti-BCL2 antibody. Type II muscle fibers identified by ATPase staining were positively stained by anti-Fas antibody in both normal control and diseased muscles. Anti-BCL2 antibody did not stain any muscle fibers. Western blot analysis using anti-Fas antibody showed a single band at 45 kDa in both skeletal muscle and lymphocytes. Anti-Fas antibody has been reported to induce apoptosis in the cells. The presence of anti-Fas antibody reactive materials in type II muscle fibers might be related to type II fiber atrophy in muscular disorders.
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PMID:Type II muscle fibers are stained by anti-Fas antibody. 874 53

Perforin- and Fas-based killing pathways are two major mechanisms of cytotoxic T lymphocytes (CTL)-mediated cytotoxicity. In this paper, we have reported the identification of low molecular weight probes on CTL-mediated cytolysis. In addition to inhibitors of acidification so far reported, three other groups of compounds have been identified to block perforin-based cytolysis by the CD8+ CTL clone: (1) an inhibitor of actin polymerization (cytochalasin D), (2) respiratory inhibitors (antimycin A and oligomycin A), and (3) protein kinase inhibitors (calphostin C, herbimycin A, K252a, and staurosporine). Since Fas-based cytolysis by CD4+ CTL clone was inhibitable or rather increased by these agents, only vacuolar type H(+)-ATPase inhibitors such as concanamycin A have been shown to be highly specific probes to block perforin-based CTL-mediated cytotoxicity.
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PMID:Identification of low molecular weight probes on perforin- and Fas-based killing mediated by cytotoxic T lymphocytes. 898 76

Apoptosis of Jurkat T cells induced the caspase-mediated proteolytic cleavage of p21-activated kinase 2 (PAK2). Cleavage occurred between the amino-terminal regulatory domain and the carboxyl-terminal catalytic domain, which generated a constitutively active PAK2 fragment. Stable Jurkat cell lines that expressed a dominant-negative PAK mutant were resistant to the Fas-induced formation of apoptotic bodies, but had an enhanced externalization of phosphatidylserine at the cell surface. Thus, proteolytic activation of PAK2 represents a guanosine triphosphatase-independent mechanism of PAK regulation that allows PAK2 to regulate morphological changes that are seen in apoptotic cells.
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PMID:Membrane and morphological changes in apoptotic cells regulated by caspase-mediated activation of PAK2. 917 Oct 63

The inositol 1,4,5-trisphosphate receptor (IP3R) is an endoplasmic reticular calcium release channel found in most cell types. Calcium signaling mediated by IP3Rs regulates a wide variety of physiological processes, including smooth muscle contraction, immune function, and fertility. We have focused on the role of the IP3R in programmed cell death and the regulation of IP3R levels in heart failure, a condition shown to be associated with cardiomyocyte apoptosis. During end-stage human heart failure, we have demonstrated that type 1 IP3R (IP3R1) mRNA and protein levels are up-regulated, in contrast to other cardiac calcium regulatory proteins, such as the type 2 ryanodine receptor (RYR2) and type IIa sarcoplasmic reticulum calcium adenosine triphosphatase (SERCA2), which are down-regulated. These data suggest that altered calcium channel expression may contribute to the defects in calcium homeostasis during heart failure. Furthermore, regulation of the IP3R may have implications for the survival of cardiac myocytes. Data from our laboratory have linked IP3R expression with susceptibility to apoptosis. IP3R-deficient T cells are resistant to apoptosis induced by dexamethasone, T cell receptor stimulation, ionizing radiation, and Fas. These findings suggest that intracellular calcium release via IP3Rs is a critical mediator of apoptosis. Thus the IP3R, which is up-regulated during human heart failure, may play a role in cardiomyocyte apoptosis and therefore in the pathophysiology of heart failure.
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PMID:Role of inositol 1,4,5-trisphosphate receptors in regulating apoptotic signaling and heart failure. 947 44

Gammadelta T cells may contribute to the pathogenesis of Multiple Sclerosis (MS) via cytotoxicity directed at the myelin-oligodendrocyte unit. We have previously demonstrated that peripheral blood-derived gammadelta T cells lyse fresh human oligodendrocytes in vitro. The present work extends these observations to gammadelta T cells derived from both peripheral blood (PBL) and cerebrospinal fluid (CSF) of MS and non-MS neurological disease controls and addresses the mechanism of cellular cytotoxicity. We found that MS patients contained increased proportions of Vdelta1+ gammadelta T cells in both CSF and PBL samples compared to other neurological disease (OND) controls. Although gammadelta T cells from all patients were cytotoxic towards Daudi, RPMI 8226, U937, Jurkat, oligodendroglioma and fresh human oligodendrocyte targets, OND-derived, Vdelta2+ rich, populations derived from the CSF exhibited greater cytotoxicity towards cell lines (Daudi, RPMI 8226) known to express high levels of heat shock proteins (hsp). To clarify the mechanism(s) of cytotoxicity used by gammadelta T cells, we first showed that cell-target contact was necessary by the use of physical barriers (transwells), which reduced target cell lysis by at least 75%. The use of Ca2+-free media reduced lysis by up to 50%, but fully blocking gammadelta T cell Perforin release and function by either Ca2+ chelation (Mg2EGTA) or the H+-ATPase inhibitor Concanamycin-A (CMA), completely abrogated the lysis of Fas-/hsp60high expressing targets (Daudi, U937). However, additional treatment with Brefeldin A was required for the complete inhibition of gammadelta T cell mediated killing of Fas+ expressing Jurkat targets and fresh human brain-derived oligodendrocytes. Inhibition of granzyme activity by an isocoumarin compound reduced cytolysis only slightly. The use of either Brefeldin A or an anti-Fas antibody alone did not significantly affect lysis. These findings suggest that in MS, gammadelta T cells may utilize either the Fas-mediated or Perforin-based cell cytotoxicity pathways in exerting oligodendrocyte damage, though the Perforin pathway is predominant.
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PMID:Mechanism of gammadelta T cell-induced human oligodendrocyte cytotoxicity: relevance to multiple sclerosis. 967 Aug 45

The MRL-Fas(lpr) mouse, a model of multisystemic autoimmune disease, has been proposed as a potential model of autoimmune inner ear disease. Cochlear pathology, consisting of hydropic degeneration of the stria vascularis, has been documented to occur coincident with the establishment of systemic disease in this animal. Because the cochlear pathology is restricted to the stria, this study was designed to evaluate whether the endocochlear potential (EP) would be diminished in these animals because of a loss in strial Na, K-ATPase. Experimental (MRL-Fas(lpr)) mice, with established systemic disease, had auditory brain stem response thresholds and EPs recorded. MRL-+/+ mice served as controls. Animals were then euthanized, and their cochleas were processed for immunohistologic assay for the alpha1 and beta2 subunits of Na,K-ATPase. Density of staining was evaluated by use of quantitative means with densitometry image analysis of digitized images. MRL-Fas(lpr) mice revealed significant elevations in auditory brain stem response thresholds and reductions in EPs but no reductions in Na,K-ATPase levels, as evidenced by immunohistochemical assay. The reduction of EP likely occurs as a result of cellular degeneration within the stria vascularis and likely results from an abrogation of the strial perilymph/endolymph barrier and not from a reduction in strial Na, K-ATPase levels.
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PMID:Strial dysfunction in the MRL-Fas mouse. 1050 3

Autoimmune gastritis in humans is a chronic inflammatory disease of the stomach accompanied by specific destruction of gastric parietal and zymogenic cells resulting in pernicious anemia. Human gastritis can be accurately reproduced in mice and is characterised by autoantibodies to the alpha- and beta-subunits of the gastric H/K ATPase (the enzyme responsible for gastric acid secretion) and cellular destruction of parietal and zymogenic cells within the gastric gland. Studies with these mouse models have given us our current concepts of the immunopathogenesis of the gastritis. Mouse models have shown that a T cell response is generated to the alpha- and beta-subunits of the H/K ATPase and that an immune response to the beta-subunit seems to be required for disease initiation. Using these models, we have defined key events associated with a damaging autoimmune response to the gastric H/K ATPase. The mechanisms associated with the cellular destruction associated with autoimmune gastritis are not know, but may involve signaling through death inducing pathways such as the Fas/FasL and TNF/TNFR pathways. This knowledge should permit us to develop strategies to prevent and treat the gastritis.
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PMID:Immunopathology of autoimmune gastritis: lessons from mouse models. 1096 31

We have found that activation of human adult T cell leukemia (Jurkat) cells with anti-Fas Ab leads, in a concentration-dependent manner, to an early burst of production of nitric oxide (NO), which inhibits cell respiration. This results in mitochondrial hyperpolarization, dependent on the hydrolysis of glycolytic ATP by the F1F(o)-ATPase acting in reverse mode. During this early phase of activation, there is a transient release of superoxide anion. All these processes can be prevented by an inhibitor of NO synthase. Approximately 2 h after stimulation with anti-Fas Ab, a distinct second phase can be detected. This comprises a concentration-dependent collapse in mitochondrial membrane potential, a second wave of free radical production, and activation of caspase-8 leading to apoptosis. This second phase is abolished by an inhibitor of caspase activation. In contrast, inhibition of NO synthesis leads to an enhancement and acceleration of these latter processes, suggesting that the early NO-dependent phase represents a protective mechanism. The significance of the two phases in relation to cell survival and death remains to be studied.
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PMID:Inhibition of mitochondrial respiration by endogenous nitric oxide: a critical step in Fas signaling. 1207 95

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