Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:3.4.21.79 (granzyme B)
 3,301 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

In human NK cells and CTL it has been shown that release of lytic molecules is, at least in part, responsible for the lysis of target cells (TC). Of the various types of molecules thought to be involved in cell-mediated cytotoxicity (CMC), perforin and the serine proteases (granzymes A and B) are the best described. Using mammalian expression vectors (pRSV-neo and pSV2-neo), antisense constructs for perforin and granzyme B were independently electroporated into YT-INDY, a human non-MHC-restricted, IL-2-independent, cytotoxic lymphocyte. Transfected YT-INDY was then selected for expression of the plasmid by antibiotic G418 resistance. The presence of plasmid was confirmed by detection of the integrated plasmid G418 resistance gene using PCR. The presence of antisense perforin in YT-INDY (YT-xPFP) inhibited lytic ability by > 95% compared to YT-INDY transfected with plasmid alone or plasmid with unrelated antisense (YT-neo, YT-ctrl, respectively). Likewise, the presence of antisense GrB (YT-xGrB) inhibited the lytic ability of YT-INDY by > 95%. Western analysis revealed a 30% decrease in the level of perforin and a 55% decrease in granzyme B protein levels compared to YT-neo. Northern analysis using oligo probes complementary to perforin and granzyme B mRNA showed a decrease in their respective message levels. In conclusion, stably transfected antisense constructs for perforin and granzyme B essentially eliminated the lytic ability of YT-INDY. These results strongly indicate that both perforin and granzyme B are required by this human cytotoxic lymphocyte for effective TC lysis.
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PMID:Stably transfected antisense granzyme B and perforin constructs inhibit human granule-mediated lytic ability. 765 32

Cytoplasmic granules from activated natural killer (NK) and cytotoxic T lymphocytes (CTL) contain a pore-forming protein, perforin, and several homologous serine proteinases called granzymes. Expression of these proteins correlates with the cytolytic potential of cytotoxic lymphocytes. Using a panel of MoAbs specific for human granzyme A and B, respectively, expression of these proteinases in non-pathological lymphoid tissue and peripheral blood lymphocyte (PBL) subpopulations was investigated. Using immunohistochemistry and double stainings, the phenotype of granzyme-expressing cells in lymphoid tissue was investigated. Granzyme-positive cells were detected in all lymphoid tissues tested. No large differences in the number and distribution between granzyme A- and granzyme B-positive cells were observed. The highest number of positive cells was located in the red pulp of the spleen. Significant numbers were detected in tonsil, lymph nodes, liver and thymus. Low numbers were present in the lamina propria of non-inflamed stomach, small intestine and colon. Phenotypic analysis and cell sorting showed that most of the granzyme-positive cells in lymphoid tissue and PBL consisted of CD3-CD16+CD56+ lymphocytes. Hardly any granzyme-positive CD3+CD8+ CTL were present in peripheral blood. The synthesis of granzyme A as well as B by both CD3+CD16+CD56+ and CD3+CD8+ cells in peripheral blood was increased upon IL-2 stimulation. These results indicate that in normal lymphoid tissue the predominant cytolytic cell population is formed by the NK cells, and activated CTL are rare.
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PMID:Localization and identification of granzymes A and B-expressing cells in normal human lymphoid tissue and peripheral blood. 769 16

Interleukin 9 (IL-9) is a TH2 cytokine that has been shown to promote the antigen-independent growth of some mouse T helper clones. To characterize the specificity of IL-9-mediated T cell activation, we used a murine T cell clone that could grow with either IL-9 or IL-2. After differential hybridization of a cDNA library, we isolated three genes that were expressed preferentially in the presence of IL-9. Two of them correspond respectively to granzyme A and granzyme B, two proteases expressed by activated T cells. By Northern blot hybridization and functional assays, we found that IL-9 induced the expression of granzyme B in several T cell clones as well as in mast cell lines. In addition, other proteases such as the mouse mast cell proteases were also found to be expressed by IL-9-activated T cell clones. The third IL-9-induced cDNA corresponds to the alpha-chain of the high-affinity receptor for IgE. Several T cell clones expressed this IgE receptor mRNA and were able to bind IgE with high affinity. Taken together, our results indicate that IL-9 induces a mast cell-like phenotype in T cell clones.
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PMID:IL-9 induces expression of granzymes and high-affinity IgE receptor in murine T helper clones. 773 Jun 12

The production of interleukin 12 (IL-12) following allogeneic stimulation and its involvement in the differentiation of allospecific cytotoxic T lymphocytes (CTLs) have been investigated. Supernatants of mixed lymphocyte cultures had detectable levels of IL-12 p40 which were completely abrogated after depletion of responder cells from monocytes. While addition to the culture of anti-IL-12 neutralizing antibodies partially inhibited the allogeneic proliferative response and the subsequent CTL activity, addition of IL-12 stimulated both responses, suggesting that endogenously produced IL-12 plays a role in the development of alloreactivity. Furthermore, using primary mixed cultures of lymphocytes from major histocompatibility complex-recombinant siblings identical for class II antigens and displaying class I disparity, we demonstrated that addition of recombinant IL-12 at the sensitizing phase of the primary mixed lymphocyte culture induced CTL activity. Under these stimulation conditions, addition of recombinant IL-12 also triggered cell proliferation, indicating that IL-12 provides both growth and differentiation signals. The mechanism underlying this process does not appear to require IL-2, since IL-12-mediated CTL generation was not abrogated by anti-IL-2 alpha-chain antibodies. IL-12 increased granzyme B and perforin mRNA accumulation in major histocompatibility complex class I-primed lymphocytes, suggesting that this cytokine activates these two genes in CTL precursors. We conclude that IL-12 can stimulate the generation of alloreactive CTLs. We suggest that IL-12 may play a role in helper cell-independent CTL generation.
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PMID:Interleukin 12 induces the differentiation of major histocompatibility complex class I-primed cytotoxic T-lymphocyte precursors into allospecific cytotoxic effectors. 780 96

The ability of natural killer cell stimulatory factor/interleukin-12 (IL-12) to induce cytokines other than IFN-gamma from both T and NK cells was studied. Both the direct effect of IL-12 and the cooperation between IL-12 and other cytokine inducers such as IL-2, phorbol diesters, and receptor antibodies were evaluated. It was found that IL-12 induces mRNA accumulation and production of GM-CSF and TNF-alpha from both T and NK cells and, as tested on NK cells only, induces M-CSF mRNA accumulation. Compared with cytokine inducers, IL-12 ability to induce IFN-gamma production was severalfold higher than its ability to induce GM-CSF or TNF-alpha. Likewise, the synergistic effect of IL-12 with the other stimuli to induce IFN-gamma was stronger than that observed in the case of GM-CSF or TNF-alpha. The IL-12-mediated enhancement of NK cytotoxicity is accompanied by an increased accumulation of mRNA for at least two genes encoding cytotoxic cell granule-associated proteins, the serine esterase granzyme B and the pore-forming protein perforin. IL-12 induction of perforin mRNA accumulation was not synergistic with either IL-2 or anti-CD16 stimulation, whereas granzyme B mRNA accumulation, induced by IL-2 or anti-CD16 stimulation, was slightly potentiated by IL-12. Thus, although IFN-gamma production is probably one of the most physiologically relevant effects of IL-12, induction of other cytokines by IL-12 in the presence of other inflammatory or immune stimuli may have a role in the in vivo functions of IL-12. The observation that both the IL-12-mediated enhancement of NK cell-mediated cytotoxicity and the increased expression of genes encoding cytotoxic cell granule-associated proteins were not cooperative with the effect of other NK cell activators suggests that the effect of IL-12 on cytotoxic cells is in part independent from that of other stimuli regulating the functions of these cells.
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PMID:Cooperation of natural killer cell stimulatory factor/interleukin-12 with other stimuli in the induction of cytokines and cytotoxic cell-associated molecules in human T and NK cells. 791 99

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

The frequency of peripheral blood cells expressing the perforin gene or the granzyme B gene was evaluated by in situ hybridization in nine patients suffering from metastatic melanoma and treated with recombinant interleukin-2 (rIL-2). A spontaneous expression of both genes was detected in five to seven patients. rIL-2 administration increased the frequency of positive cells in all patients (P < 0.03 for each gene), the highest frequency being reached in the patients who already expressed these genes prior to rIL-2 treatment (P < 0.02). Expressions of the granzyme B gene and of the perforin gene were strongly correlated before IL-2 treatment and they were similarly affected by rIL-2 administration. In contrast, their modification under treatment did not correlate with that of CD56+ cell counts, of natural killer activity and of sCD8 release. This indicates that perforin and granzyme B gene expressions are markers of cytotoxic cell activation independent of those previously described, and that they should be further evaluated in patients with malignancies to delineate their potential value in predicting clinical outcome.
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PMID:Increased expression of perforin and granzyme B genes in patients with metastatic melanoma treated with recombinant interleukin-2. 804 27

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

Perforin and granzymes are proteins thought to play a relevant role in cell-mediated cytotoxicity. These molecules are constitutively expressed in NK cells and their level of expression in cytotoxic T lymphocytes is regulated by several cytokines. We analyzed the mechanisms by which cytokines and cellular ligands known to modulate NK cell-mediated cytotoxicity affect the expression of the mRNA encoding granzyme A and B and perforin in NK cells. Our data indicate that IL-2 and IL-12 induce increased accumulation of both perforin and, to a higher degree, granzyme B mRNA. In contrast, binding of target cells or immune complexes up-regulates expression of granzyme B mRNA without altering that of perforin. Results of in situ hybridization experiments confirm that mRNA for both molecules are expressed at low levels in most NK cells, and that both are induced to accumulate by the two cytokines in the majority of the cells. The mechanisms by which IL-2 and IL-12 regulate expression of the two molecules are, in part, distinct: both cytokines increase the transcriptional rate of the encoding genes, whereas only IL-2 acts also at a post-transcriptional level to increase the stability of their mRNA.
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PMID:Modulation of perforin and granzyme messenger RNA expression in human natural killer cells. 810 68


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