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)

Natural killer (NK) cells (CD3- LGL) spontaneously kill K562 targets but are unable to kill Daudi cells in the absence of IL-2 stimulation. IL-4 is reported to prevent or inhibit the IL-2 driven lymphokine activated killer (LAK) generation in NK cells. Therefore, we asked whether the antagonistic effect of IL-4 on the IL-2 induced LAK activity might regulate the expression of genes encoding proteins involved in lysis, like perforin the pore-forming protein or associated to lysis like granzymes A and B. By using in situ hybridization we show that, besides inducing LAK activity, IL-2 stimulation increases the amount of perforin and granzyme B mRNA at the single cell level in 40 to 100% of the total CD3- LGL population, which suggests the preferential implication of a cell subset within the LGL population. In addition, our results indicate that the stimulatory effect of IL-2 can be down-regulated by IL-4 with respect to both LAK activity and granzyme B and perforin gene expression. Here again one can notice a decrease in the amount of specific mRNA per cell. These findings suggest that the modulation of the lytic machinery via lymphokines might be associated to the regulation of the lytic potentiality of NK/LAK cells.
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PMID:Involvement of granzyme B and perforin gene expression in the lytic potential of human natural killer cells. 209 10

Natural killer (NK) cells (CD3-) or large granular lymphocytes (LGL) spontaneously kill K562 targets but are unable to kill Daudi cells in the absence of IL-2 stimulation. IL-4 is reported to prevent or inhibit the IL-2-driven lymphokine-activated killer (LAK) generation in NK cells. Therefore, we wished to determine whether the antagonistic effect of IL-4 on IL-2-induced LAK activity might regulate the expression of genes encoding proteins involved in lysis, such as perforin, the pore-forming protein, or which are associated with lysis, such as granzymes A and B. By using in situ hybridization, we showed that, in addition to inducing LAK activity, IL-2 stimulation increased the amount of perforin and granzyme B mRNA at the single-cell level in 40 to 100% of the total CD3- LGL cell population. In addition, our results indicated that the stimulatory effect of IL-2 can be downregulated by IL-4 for both LAK activity and granzyme B and perforin gene expression. Here again, a decrease in the amount of specific mRNA per cell was noted. These findings suggest that modulation of the lytic machinery via lymphokines might be associated with regulation of the lytic potential of NK cells.
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PMID:Involvement of granzyme B and perforin gene expression in the lytic potential of human natural killer cells. 228 95

The expression of perforin and serine esterase (SE) activities and genes was examined in a murine cytotoxic T lymphocyte line (R8i) that does not require exogenous IL-2 for proliferation. Although perforin (hemolytic) activity was detected in unstimulated R8i, it was induced 2- to 14-fold in the presence of IL-2, IL-3, IL-4, and IL-6, and to a lesser degree (less than 4-fold) by TNF and IFN-gamma. A transient induction was also observed at the mRNA level. Peak perforin protein and mRNA levels were reached within 24 h and started to decline 48 h after stimulation. A trypsinlike SE activity which cleaves the chromogenic substrate N, alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester was also induced 2- to 4-fold in the presence of the various IL tested. At the mRNA level, the message for SE SE1/granzyme A/Hanukah factor was absent from R8i whereas SE2/granzyme B/CTLA-1 increased by greater than 3-fold in the presence of IL-2, IL-3, IL-4, and IL-6 and occurred with the same kinetics and pattern as perforin. The induction response occurred without any enhancement of cell proliferation, suggesting that the cytokines tested may provide a direct differentiation signal to CTL. The induction response was abrogated effectively by inhibitors of protein (cycloheximide or emetine) and RNA (actinomycin D) syntheses. These findings suggest that the various IL may provide both a growth signal and a differentiation signal to CTL, resulting in the direct activation of perforin and SE genes.
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PMID:Induction of perforin and serine esterases in a murine cytotoxic T lymphocyte clone. 240 39

The IL-2 pathway is portrayed often as central to allograft rejection. To test this hypothesis, we studied IL-2-deficient mice as allograft recipients. IL-2 gene knockout (KO) mice reject islet allografts and demonstrate a classical mononuclear leukocytic infiltrate, containing CD4+ and CD8+ T cells, surrounding and invading the islet allografts. Moreover, allograft rejection in the IL-2 KO mouse is associated with intragraft expression of certain cytokine and CTL attack molecule genes (e.g. IFN-gamma, IL-4, IL-7, IL-10, and granzyme B). In separate experiments, IL-2 KO mice generated CTLs in response to in vivo challenge with allogeneic tumor cells. Although IL-2 KO mice reject allografts in vivo, spleen cells from immunologically naive IL-2 KO mice exhibit a diminished proliferative response to mitogens in vitro that could be restored largely by exogenous IL-2, IL-4, or IL-7. The paradoxical ability to execute graft rejection in vivo despite near absent T cell proliferative responses in vitro may result from the expression of IL-7 in vivo, but not in vitro. Con A-stimulated bulk spleen cell cultures derived from IL-2 KO mice were essentially devoid not only of IL-2 but also IL-7 gene transcripts. These data indicate that 1) IL-2 is not the sole T cell growth factor capable of supporting allograft rejection and 2) expression of IL-4, but not IL-2, during the allograft response does not lead inevitably to tolerance.
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PMID:IL-2 knockout recipient mice reject islet cell allografts. 760 20

Human bone marrow transplantation is becoming more common in the treatment of certain forms of cancer despite the scarcity of HLA matched donors. Because human umbilical cord blood (HUCB) has been used as a source for stem cells in bone marrow transplantation, and because NK cells appear to be important in graft versus leukemia response, we investigated the lytic activity of freshly isolated HUCB NK cells (HUCB-NK) against tumor targets and their ability to differentiate into LAK cells following stimulation with various cytokines. Although cytotoxicity mediated by fresh HUCB-NK was low compared to that of adult peripheral blood lymphocyte-derived NK cells (PBL-NK), the ability of HUCB-NK to bind to K562 target cells (TC) was similar to PBL-NK. In addition, the PBL-NK cytotoxicity of postpartum mothers was also low compared to that of normal adult PBL-NK. When we incubated HUCB for 18 hr in either IL-2 or IL-12, we boosted the level of HUCB-NK cytotoxicity to approximately the level observed in PBL-NK and increased the level of perforin, granzyme A, and granzyme B mRNA expression. In addition, when we incubated HUCB in IL-2, IL-4, IL-7, IL-12, TNF-alpha, IFN-alpha, IFN-gamma, or TGF-beta for 5 days, we observed that HUCB was capable of generating LAK cells only when incubated with either IL-2 or IL-12. In contrast, IL-2, IL-7, IL-12, TNF-alpha, and IFN-gamma all generated LAK cells from adult PBL. When we added to the medium low-dose IL-2 and irradiated K562 as feeder cells (mini-LAK), we were unable to generate LAK activity from HUCB-NK, whereas we could generate it with PBL-NK cells under the same conditions. Addition of serum derived from HUCB in a 4-hr 51Cr release assay with PBL-NK as the effector cells (EC) and K562 as the TC resulted in a 42% decrease in PBL-NK-mediated cytotoxicity. Although we detected no TGF-beta in HUCB serum, we did detect high concentrations of soluble class I MHC (sHLA). To our knowledge, sHLA has not previously been shown to inhibit NK cytotoxicity, although the expression of class I HLA on the surface of TC has been shown to inhibit NK cytotoxicity. To study further the effect of sHLA on cell-mediated cytotoxicity, we added various concentrations of sHLA to EC mediating NK, ADCC, and CTL activities. All were inhibited in a dose-dependent manner.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:The lack of NK cytotoxicity associated with fresh HUCB may be due to the presence of soluble HLA in the serum. 799 57

Staphylococcal enterotoxin superantigens (SAg) bind class II major histocompatibility complex (MHC) molecules on antigen-presenting cells (APC) and upon cell-to-cell contact stimulate proliferation of T cells expressing appropriate V beta gene products. In addition, SAg can also deliver negative signals to Ag-specific T cells resulting in a state of unresponsiveness or a loss of viability. The present study examines the functional consequences of a direct interaction of SAg with alloAg-specific class II MHC+ CD4+ T cell lines (TCL). Our results demonstrate that SAg induce programmed death (apoptosis) in a majority of Ag-specific CD4+ T cells accompanied by genomic DNA fragmentation. SAg binding to Ag-specific TCL resulted in a rapid mobilization of intracellular free calcium ([Ca2+]i) and transcription of a number of cytokine genes including interleukin-2(IL-2), IL-4, interferon-gamma (IFN-gamma), granulocyte-macrophage colony-stimulating factor (GM-CSF), and granzyme B indicating the activation of primed T cells. Both SAg-induced cytokine gene expression as well as subsequent death were significantly inhibited by a tyrosine kinase inhibitor herbimycin A and also by cyclosporin A. SAg-induced death of primed T cells was also inhibited by monoclonal antibodies (mAb) directed at the CD11a/CD18 molecule but not those reactive with other T cell surface molecules such as CD2, CD7, CD28, CD29 or CD49d. None of these mAb, including anti-CD11a/CD18, had any effect on SAg-induced expression of IL-2 and IL-4 genes or SAg-induced [Ca2+]i response. Addition of cytokines such as IL-1 alpha, IL-2, IL-4, IL-6, GM-CSF, IFN-gamma, tumor necrosis factor (TNF-alpha, or TNF-beta), or neutralizing Ab to these cytokines had no effect on SAg-induced death of Ag-specific TCL. The T cells which survived the death-inducing effects of SAg showed down-regulation of the CD3/T cell receptor and up-regulation of CD2 and HLA-DR expression, and upon re-exposure to the same SAg upregulated expression of mRNA for IL-2 and IFN-gamma. Presentation of SAg by B7+ ICAM-1+ LFA-3+ DR+ professional APC was also able to induce the death of Ag-specific TCL. Together these results suggest that the activation with SAg causes programmed death of Ag-specific TCL cells via a mechanism that requires late participation of the CD11a/CD18 molecule.
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PMID:Activation with superantigens induces programmed death in antigen-primed CD4+ class II+ major histocompatibility complex T lymphocytes via a CD11a/CD18-dependent mechanism. 810 Jul 73

Polymerase chain reaction-assisted reverse transcription was used to study the temporal course of rejection in unmodified recipients of murine pancreatic islet cell allografts (DBA/2-->B6AF1) by using syngeneic tissues as controls. The histologic appearance of the grafts was analyzed in parallel. Preproinsulin and constant region of the TCR-beta chain transcripts were studied as markers of graft integrity and infiltrating T cell mass, respectively. The participation of certain cytokines and CTL were analyzed by the detection of IL-2, IFN-gamma, IL-4, and CTL-specific serine protease (granzyme B) transcripts. The time-related disappearance of intragraft preproinsulin transcripts correlated with graft destruction, whereas the intensity of intragraft TCR-beta chain transcript levels correlated with the magnitude of mononuclear leukocyte infiltration in allografts. In unmodified allografts, the magnitude of IL-2 and IFN-gamma intragraft mRNA levels correlated with the intense mononuclear leukocyte infiltrate found on histologic examination at day 8. Only after stable IL-2 gene transcription on day 8 does evidence of graft destruction become apparent, indicating that IL-2 gene activation is closely related to and probably required for expression of alloimmune cytopathic processes. In contrast, IL-4 transcripts were absent or detected in low copy number throughout this time course. Intragraft expression of granzyme B mRNA, a CTL-specific transcript, peaked from day 8 to day 12 in allografts compared with syngeneic grafts or normal tissue. In syngeneic grafts IL-2 and/or IL-4 mRNA was essentially not detected. Although IFN-gamma and granzyme B transcripts were detected in syngeneic grafts, after 4 days the levels of detected transcripts were far less than those noted in allografts. In vivo detection of intragraft IL-2 transcripts in the relative absence of detectable IL-4 transcripts strongly suggests IL-2-dependent immune effector mechanisms are associated with, and perhaps responsible, for allograft rejection. Apparently IL-4-dependent effector mechanisms are not necessary for allograft rejection.
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PMID:Unmodified pancreatic islet allograft rejection results in the preferential expression of certain T cell activation transcripts. 842 34

To determine the immune processes involved in chronic liver allograft rejection (CR) we examined in situ cytokine production in tissue from 15 patients with both clinical and histopathological diagnoses of CR. Total RNA was isolated from liver samples, reverse-transcribed and analyzed by RT-PCR for the production of proinflammatory cytokines and immunoregulatory mediators. Transcripts for the Th1-like cytokines IL-2 and IFN-gamma were detected in 53.3% and 46.7% of CR grafts, while they were detected in only 16% and 0% of stable grafts, respectively. The cytotoxic T cell mediator granzyme B was expressed in the majority of liver grafts undergoing CR, but was expressed only in a minority of stable grafts (80% vs. 16%, P < 0.05). The T cell product IL-5 was also significantly upregulated in CR as compared with stable livers (80% vs. 16%, P < 0.01). Other Th2 cytokines--IL-4 and IL-10--and macrophage products--IL-1 beta, IL-6, IL-8, TGF-beta, and TNF-alpha--were not substantially upregulated in CR grafts as compared with stable grafts. PDGF-beta transcripts were detected in the majority of the CR grafts, but were not detected in stable liver grafts (73% vs. 0, P < 0.05). By immunohistochemical staining, we observed that CD3+CD4+, and CD3+CD4- T cells were detected in CR grafts along with CD20+ B cells and CD68+ macrophages. There was, however, a predominant infiltration of CD3+CD4+ lymphocytes. Taken together, these data suggest that infiltrating cells produce proinflammatory and immunoregulatory cytokines that have a role in mediating graft damage in CR.
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PMID:Expression of cytokines and immune mediators during chronic liver allograft rejection. 854 86

Chronic allograft nephropathy is a relentlessly progressive process and a major cause of long-term graft dysfunction and ultimate failure. Interstitial fibrosis, tubular atrophy, and glomerular and vascular lesions characterize this mechanistically unresolved disorder. Given the prominent role of TGF-beta 1 in tissue repair and in fibrosis, we have explored the hypothesis that fibrosis and chronic allograft nephropathy would be distinguished by intragraft TGF-beta 1 mRNA expression. This postulate was tested by mRNA phenotyping of RNA isolated from 127 human renal allograft biopsies. Reverse transcription assisted polymerase chain reaction was used to amplify and identify ingraft gene expression. Our investigation demonstrated a significant correlation between intragraft TGF-beta 1 mRNA display and renal allograft interstitial fibrosis and chronic allograft nephropathy. In contrast, intragraft expression of mRNA encoding immunoregulatory cytokines, IL-2, IFN-gamma, IL-4, IL-10, or cytotoxic attack molecules, granzyme B and perforin was not a correlate of interstitial fibrosis or chronic allograft nephropathy. Our studies identify, for the first time, a significant association between intragraft TGF-beta 1 mRNA expression and renal allograft interstitial fibrosis, and advance a candidate molecular mechanism for chronic allograft nephropathy.
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PMID:Intragraft TGF-beta 1 mRNA: a correlate of interstitial fibrosis and chronic allograft nephropathy. 873 Oct 94

T-cell activation is the key event in the development of acute allograft rejection and precedes clinically apparent organ damage. We have performed competitive RT-PCR to quantify the intragraft gene expression for T-cell associated cytokines (IL-2, IL-4, IL-7, IL-15), CTLA4 and cytotoxic lymphocyte specific molecules to test their potential as rejection markers and to further elucidate mechanisms involved in graft rejection. RNA was isolated from snap-frozen portions of core biopsies obtained for the evaluation of graft dysfunction in 34 adults and 8 children. Reverse transcription derived cDNA was coamplified with a known amount of a competitor (a mutated target gene fragment) and normalized for the house keeping gene GAPDH. IL-2, the principal T-cell growth factor and IL-4 were not detectable in any biopsy at the time of histologically apparent rejection. Transcripts of the novel cytokine IL-15 were found in all dysfunctioning grafts and in two donor kidneys prior to reperfusion. CTLA-4, expressed in activated T-cells after costimulation by CD28 was uniformly present post transplantation, but not in the two donor kidneys. Transcripts for IL-7 (p < 0.001), IL-15 (p < 0.0005), CTLA4 (p = 0.04), granzyme B (p < 0.00015) and perforin (p < 0.0003) showed a significant correlation to acute rejection episodes. Heightened gene expression declined rapidly after initiation of rejection treatment. Fas-ligand mRNA gene expression was upregulated in both acute and chronic rejections. While this study shows that competitive RT-PCR is a reliable diagnostic tool to detect acute rejection in renal core biopsies, a future challenge will be to identify molecular markers of evolving rejections utilizing RT-PCR in sequential samples of fine needle aspirations, urine and blood.
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PMID:The intragraft gene activation of markers reflecting T-cell-activation and -cytotoxicity analyzed by quantitative RT-PCR in renal transplantation. 883 47


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