Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: EC:3.4.21.79 (granzyme B)
3,301 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cell-mediated cytotoxicity (CMC) has traditionally been thought to involve the release of granule components, including perforin and granzymes, from the effector cell (EC) onto the target cell (TC) membrane. Recently, a granule-independent cytolytic mechanism involving the interaction of Fas antigen (CD95) with Fas ligand has been described. We have generated antisense perforin (YT-xP1) and granzyme B (YT-xGrB) transfectants of the human NK-like cell line YT-INDY. These transfectants have greatly reduced cytolytic ability when compared to the vector-transfected control cell line (YT-neo). In this study, however, we demonstrate that the antisense transfectants retain the ability to lyse Fas+ TC. Fas-mediated lysis is Ca(2+)-independent and is inhibited by a monoclonal anti-Fas blocking Ab, M3. By RT-PCR, we detect message for FasL in unstimulated YT-xP1 and YT-xGrB transfectants, as well as in unstimulated YT-neo. By flow cytometry, we show that YT-neo, YT-xGrB, and YT-xP1 constitutively express surface FasL. These data indicate that in a human NK-like cell line, similar to the murine system, the granule and Fas pathways of cytotoxicity function independently of one another. At least with the TC tested, our data also indicate that the granule and Fas pathways together account for nearly 100% of the cytolytic ability of YT-INDY.
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PMID:Fas-mediated cytotoxicity remains intact in perforin and granzyme B antisense transfectants of a human NK-like cell line. 755 97

Two distinct cytolytic pathways have been characterized: one in which the interaction between the Fas antigen and its ligand results in apoptosis, and another in which the pore forming protein perforin and the serine protease granzyme B contribute to DNA fragmentation and cell death. We investigated intrarenal expression of these molecular executors of cell death in light of the potential participation of cytolytically active cellular elements in the antiallograft repertory. Reverse transcriptase-polymerase chain reaction was used to identify intrarenal expression of Fas antigen, Fas ligand, granzyme B and perforin in eighty human renal allograft biopsies; mRNA display was correlated with the Banff histological diagnosis of renal allografts. Our studies demonstrate that: (1) intrarenal expression of Fas ligand mRNA and of granzyme B mRNA are correlates of acute but not chronic rejection; (2) Fas ligand mRNA is not detectable in allografts in the absence of rejection; (3) intrarenal coexpression of members of each lytic pathway (Fas ligand and Fas, granzyme B, and perforin) and that of both pathways (e.g., Fas ligand and granzyme B) are correlates of acute rejection; and (4) a direct correlation exists between the histological severity of acute rejection and intrarenal coexpression of mRNA encoding Fas ligand, Fas, granzyme B, and perforin. Our studies identify, for the first time, the differential expression of the two major lytic pathways in acute and chronic allograft rejection and suggest that specific therapy directed at the cytotoxic attack molecules might be efficacious in the prevention and/or treatment of acute rejection.
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PMID:Molecular executors of cell death--differential intrarenal expression of Fas ligand, Fas, granzyme B, and perforin during acute and/or chronic rejection of human renal allografts. 899 Mar 77

Procedures to diagnose renal allograft rejection depend upon detection of graft dysfunction and the presence of a mononuclear leukocytic infiltrate; however, the presence of a modest cellular infiltrate is often not conclusive and can be detected in non-rejecting grafts. We have pursued a molecular approach utilizing reverse transcription (RT)-PCR to test the diagnostic accuracy of multiple immune activation gene analysis as means to diagnose renal allograft rejection. The magnitude of intragraft gene expression of 15 immune activation genes was quantified by competitive RT-PCR in 60 renal allograft core biopsies obtained for surveillance or to diagnose the etiology of graft dysfunction. Results were compared with a clinicopathological analysis based upon the histological diagnosis (Banff criteria) and the response to antirejection treatment. During acute renal allograft rejection intragraft expression of the interleukin (IL)-7 (P < 0.001), IL-10 (P < 0.0001), IL-15 (P < 0.0001), Fas ligand (P < 0.0001), perforin (P < 0.0001), and granzyme B (P < 0.0015), but not IL-2, interferon gamma, or IL-4, genes is significantly heightened. Amplified RANTES and IL-8 gene transcripts are sensitive but nonspecific markers of rejection. A simultaneous RT-PCR evaluation of perforin, granzyme B, and Fas ligand identifies acute rejection, including cases with mild infiltration, with extraordinary sensitivity (100%) and specificity (100%). Effective antirejection therapy results in a rapid down-regulation of gene expression. The combined analysis of Fas ligand, perforin, and granzyme B gene expression by quantitative RT-PCR provides a reliable tool for diagnosis and follow-up of acute renal allograft rejection. Its accuracy and a potential rapid application within few hours suggest its use in the clinical management of renal transplant patients.
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PMID:Quantitative detection of immune activation transcripts as a diagnostic tool in kidney transplantation. 901 47

The perforin-facilitated entry of granzymes in target cells is a major mechanism used by CTL to induce cell death. It has been reported that granzyme B can cleave and activate the apoptotic cysteine protease p32 (CPP32)/Yama and its homologues in vitro. However, the mechanism for granzyme-based cytolysis exerted by intact CTL remains unclear. In the present work, we have used anti-CD3 mAb-redirected lysis of Fas-negative L1210 cells by CTL clones as a model to study perforin/granzyme-based cytotoxicity separately from the contribution of the Fas/Fas ligand system. N-acetyl-Asp-Glu-Val-Asp aldehyde (Ac-DEVD-CHO), a specific inhibitor of CPP32-like proteases, completely prevented the former type of lysis in 3-h assays, but not in long-term (16-h) assays. A combination of Ac-DEVD-CHO and the granzyme A inhibitor IGA (7-(phenyl-ureido)-4-chloro-3-(2-isothioureidoethoxy)-isocoumarin) inhibited long-term cytolysis. 3,4-Dichloroisocoumarin, a serine-protease inhibitor that efficiently inhibits granzyme B and poorly inhibits granzyme A, had similar effects as Ac-DEVD-CHO on anti-CD3 mAb-redirected lysis of L1210 cells. On the other hand, Fas-based cytolysis exerted by the same CTL clones on Fas-transfected L1210 cells (L1210Fas) was inhibited completely by Ac-DEVD-CHO, irrespective of the incubation time. These results suggest that granzyme B- and Fas-based cytotoxicity exerted by CTL clones converge at the level of CPP32-like protease activation, while granzyme A acts via a different, still undefined, pathway. We also demonstrate that perforin/granzyme-based cytolysis occurs without increase in the cellular ceramide content, ruling out the contribution of the sphingomyelinase pathway to this mechanism of cell death.
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PMID:Inhibition of CPP32-like proteases prevents granzyme B- and Fas-, but not granzyme A-based cytotoxicity exerted by CTL clones. 903 42

Activation of ICE/Ced-3 family proteases (caspases) has been proposed to mediate both the granule exocytosis and Fas-Fas ligand pathways of rapid target cell death by cytotoxic T lymphocytes. In agreement with this model, two peptide fluoromethyl ketone caspase inhibitors and baculovirus p35 blocked apoptotic nuclear damage and target cell lysis by the CTL-mediated Fas-Fas ligand pathway. The peptide caspase inhibitors also blocked drug-induced apoptotic cell death in tumor cells. In contrast, the caspase inhibitors blocked CTL granule exocytosis-induced target apoptotic nuclear damage, but did not inhibit target lysis. These results are consistent with recent demonstrations that granzyme B can activate caspases leading to apoptotic nuclear damage, but show that target cell lysis by CTL granule exocytosis occurs by a caspase-independent pathway.
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PMID:Target cell lysis by CTL granule exocytosis is independent of ICE/Ced-3 family proteases. 904 42

Pentoxifylline (PTX), a methylxanthine derivative, is known to inhibit the production of the TH1 cytokines interleukin-2, tumour necrosis factor-alpha and interferon-gamma. Because these cytokines play an important role in promoting the development of cell-mediated immunity, we hypothesized that PTX would also interfere with the generation of cytotoxic effector cells in response to an immunological stimulus. In this study we used a mouse model system to investigate the effect of PTX on the induction of non-specific killer lymphocytes by anti-CD3 monoclonal antibody. Anti-CD3-induced T-cell proliferation, and the generation of anti-CD3-activated killer (AK) cells was inhibited in a dose-dependent fashion by PTX (25-100 micrograms/ml). The inhibitory effect of PTX could not be attributed to a defect in the recognition/adhesion phase of cytolysis because AK cells generated in the presence of PTX conjugated normally with P815 tumour target cells. However, AK cell expression of the cytoplasmic granule-associated cytolytic effector molecules granzyme B and perforin was markedly reduced when AK cells were induced in the presence of PTX. In eontrast, PTX had no effect on AK cell expression of Fas ligand, a cell-surface cytolytic effector molecule which is involved in granule-independent cytotoxicity. PTX thus has a profound inhibitory effect in vitro on the induction of granule-dependent cytolytic effector mechanisms in a mouse model system.
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PMID:Pentoxifylline inhibits granzyme B and perforin expression following T-lymphocyte activation by anti-CD3 antibody. 908 6

AK-5 tumor cell death is mediated by natural killer cells through necrosis (perforin mediated) and apoptosis. Apoptosis is the mechanism which operates in immune animals in vivo. We have identified natural killer (NK) cell as the effector cell which induces apoptosis leading to tumor cell death in vivo. Naive NK cell which is unable to kill the AK-5 tumor cell can be activated with IL-2/IL-12 to make it capable of inducing apoptosis in tumor cells. NK cells from tumor-rejected animals show higher expression of Fas ligand and serine esterase granzyme B. In addition, NK cell-mediated apoptosis in AK-5 cells is totally abolished when effector cells are treated with anti-NKR-P1 mAb 3.2.3 and complement. NK cell-mediated apoptotic activity is inhibited in bcl-2 transfected tumor cells; however, the cytotoxic activity (perforin-mediated) remains unaffected. These observations suggest an important role for activated NK cells in inducing tumor cell death through necrosis (ADCC) and apoptosis leading to spontaneous regression of the AK-5 tumor in syngeneic animals.
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PMID:Natural killer cell as the effector which mediates in vivo apoptosis in AK-5 tumor cells. 914 99

Using granzyme B-deficient mice obtained by gene targeting, we previously demonstrated that granzyme B is required for the rapid induction of apoptotic target cell death by cytotoxic T lymphocytes (CTLs); however, CTLs are also equipped with additional effector mechanisms. In the present study, we examined the mechanisms responsible for granzyme B-independent cytotoxicity using in vitro lytic assays with CTLs derived from mice deficient for both granzyme B and Fas ligand (FasL) (granzyme B-/- x gld/gld) or for perforin and FasL (perforin x gld/gld). Our results show that primary mixed lymphocyte reaction (MLR)-derived CTLs from granzyme B-/- x gld/gld mice induce apoptosis of allogeneic targets with less efficiency and a longer delay than CTLs deficient for granzyme B alone. The residual cytotoxicity in granzyme B-/- x gld/gld CTLs is primarily accounted for by a perforin-dependent mechanism, since perforin-/- x gld/gld CTLs have virtually no residual cytotoxic activity in our assays. Granzyme B-independent cytotoxicity is therefore partially accounted for by the Fas pathway and partially by another perforin-dependent mechanism.
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PMID:Mechanisms responsible for granzyme B-independent cytotoxicity. 916 49

Hepatosplenic gammadelta T cell lymphoma (TCL) is a rare, aggressive subset of peripheral TCL that presents with hepatosplenomegaly and cytopenias. Detailed clinicopathological, ultrastructural, and cytogenetic analyses of these lymphomas are limited; functional characteristics of these lymphomas are unknown. We have undertaken a clinicopathological, immunophenotypic, ultrastructural, cytogenetic, and functional analysis of three hepatosplenic gammadelta TCLs. All patients presented with massive hepatosplenomegaly and anemia, thrombocytopenia, or severe neutropenia; terminal blastlike transformation occurred in one patient. Combination chemotherapy had no response in two patients, but induced complete remission in one. gammadelta T cell receptor (TCR) expression and clonal TCRdelta gene rearrangements were documented in each case. Two different subsets of gammadelta TCL were identified based on delta chain variable region usage; two lymphomas were Vdelta1+, whereas the third was negative for both Vdelta1 and Vdelta2. Cytogenetic analysis was performed on two lymphomas; isochromosome 7q and probable trisomy 8 was shown in one of the Vdelta1+ lymphomas, whereas the Vdelta1 negative lymphoma had 14p+ with t(1;14)(q21;p13). NK cell-associated antigens (CD11c, CD16, or CD56) and cytotoxic T lymphocyte (CTL) effector proteins (perforin, granzyme B, TIA-1, and Fas ligand) were expressed by each lymphoma; dense core cytolytic granules were observed by electron microscopy in both lymphomas studied. Functional studies performed in two cases showed TCR-mediated cytolysis of P815 x 2 FcR+ cells induced by anti-CD3 in a redirected cytolysis assay in one of the CD56+, Vdelta1+ lymphomas, whereas IFNgamma secretion was induced by anti-CD3 in the CD56-, Vdelta1 negative lymphoma. These studies show that hepatosplenic gammadelta TCLs have CTL differentiation, retain functional activity in vitro, and are derived from at least two gammadelta T cell subsets.
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PMID:Hepatosplenic gammadelta T-cell lymphoma: ultrastructural, immunophenotypic, and functional evidence for cytotoxic T lymphocyte differentiation. 919 Oct 1

Cytotoxic T lymphocytes and natural killer (NK) cells kill target cells by two main mechanisms, namely, the perforin/granzymes and the Fas ligand (Fas-L) pathways. The preferential activation of either of these two mechanisms by target cells is not known. This study examined whether various NK stimuli regulate preferentially the perforin/granzyme or the Fas pathways during the NK-cell-mediated cytotoxic reaction (NK-CMC). Purified peripheral-blood-derived NK cells were stimulated with interleukin-2 (IL-2), IL-12, or interferon alpha (IFN alpha) and their response was analyzed by the reverse transcriptase/polymerase chain reaction (RT-PCR) for NK-associated gene expression and by the 51Cr-release assay for cytotoxic function. RT-PCR data revealed that the perforin, granzyme A and granzyme B mRNAs were constitutively expressed in unstimulated NK cells and the level of perforin mRNA was augmented following activation. IL-2 enhanced the level of Fas-L mRNA in NK cells; however, the Fas-L level was much lower than that obtained in activated T cells. NK-CMC against Fas-sensitive cells was examined in the presence of neutralizing anti-(Fas antigen receptor) (Fas-R) antibody (ZB-4) or EGTA/Mg2+, which inhibits the perforin/granzyme pathway but not the Fas Fas-L interaction. The human colon adenocarcinoma HT-29 cells were sensitized to anti-Fas-R antibody (CH-11) cytotoxicity following treatment with IFN gamma. NK-CMC against untreated HT-29 cells was completely inhibited by EGTA/Mg2+ and was unaffected by ZB-4, while both EGTA/Mg2+ and ZB-4 partially inhibited NK-CMC against IFN gamma-treated HT-29 cells. Similar findings to those obtained with untreated NK cells were observed with NK cells stimulated with IL-2, IL-2 plus IL-12 or IFN alpha. In contrast to IFN gamma-treated HT-29 cells, the neutralizing anti-Fas antibody ZB-4 did not inhibit NK-CMC against Fas-sensitive U937, CEM or Jurkat tumor cells. These findings demonstrate that the Fas pathway is involved in NK-CMC against certain target cells but not all. Further, the data demonstrate that activation of NK cells by IL-2, IL-2 plus IL-12 or IFN alpha does not preferentially modulate the Fas-L-mediated killing by NK cells.
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PMID:The participation of the Fas-mediated cytotoxic pathway by natural killer cells is tumor-cell-dependent. 924 63


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