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: DrugBank:BIOD00082 (IL-2)
29,198 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Our investigations indicate that a variety of neutral serine proteases exist in highly purified, IL-2-activated rat NK (A-NK) cells. These enzymatic activities are not restricted to only cytolysin-containing granules and are not defined by only the assay of N-alpha-benzyloxycarbonyl-L-lysine thiobenzylesterase activity. These activities, which we term A-NKP 1, A-NKP 2, A-NKP 3, and A-NKP 4, cleave, respectively, the following fluorogenic peptide substrates: Boc-Phe-Ser-Arg-7-amino-4-methylcoumarin (AMC, trypsin-like); Suc-Ala-Ala-Phe AMC (chymotrypsin-like); Suc-Gly-Pro-Leu-Gly-Pro AMC (collagenase-like), and Z-Phe-Arg AMC (another trypsin-like enzyme). The proteases A-NKP 1, A-NKP 2, and A-NKP 3 are not cell surface-associated and appear to be cytosolic as defined by isopycnic sucrose density gradient centrifugation. In contrast, A-NKP 4 appears to be located in lysosomes. Treatment of rat A-NK cells with protease inhibitors that inhibit A-NKP 2 and A-NKP 3 also substantially inhibit A-NK cell-mediated cytotoxicity against both NK-sensitive and -resistant targets (YAC-1 and P815, respectively). These results indicate that A-NKP2 and A-NKP 3 may play a role in IL-2-activated NK cell-mediated cytotoxicity. A variety of proteolytic enzymes, in addition to granzymes, therefore exist in A-NK cells. Our studies indicate that a prerequisite to a thorough understanding of the role of proteases in killer cell function is the investigation of several classes of enzymes in addition to granzymes contained in lytic granules.
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PMID:Nongranular proteolytic enzymes of rat IL-2-activated natural killer cells. I. Subcellular localization and functional role. 151 70

The effect of transforming growth factor-beta 1 (TGF-beta) on activation-induced CD8+ T cell cytotoxicity and gene expression was investigated. TGF-beta was demonstrated to inhibit pore-forming protein (PFP) mRNA expression and total benzoyloxycarbonyl-L-lysine thiobenzyl ester esterase activity in CD8+ T cells cultured with IL-2 and OKT3 mAb for 6 to 18 days. Consistently, in the absence or presence of TGF-beta, the PFP mRNA expression and lymphokine-activated killer (LAK) activity of CD8+ T cells were closely correlated. The inhibitory effects of TGF-beta on both CD8+ T cell PFP mRNA expression and LAK activity were reversible by removal of TGF-beta from the culture. Expression of lymphokines, adhesion/recognition molecules, and activated p55 IL-2R, previously implicated in the lytic mechanism of cytotoxic lymphocytes, either was not detectable or did not correlate with TGF-beta inhibition of LAK activity. In addition, independently of effector/target cell binding, the lectin- or heteroconjugated antibody-dependent cellular cytotoxicity of IL-2/OKT3 mAb-activated CD8+ T cells was inhibited by preculture with TGF-beta. TGF-beta also inhibited the rapid activation-induced expression of PFP mRNA and cytotoxic potential in resting T cells, thereby indicating that the effect of TGF-beta was independent of T cell proliferation. TGF-beta inhibition of CD8+ T cell PFP mRNA expression and cytotoxic potential was TGF-beta dose dependent; however, a variety of activation stimuli (including IL-2, IL-6, and OKT3 mAb) were all similarly inhibited by TGF-beta. Therefore, TGF-beta may be an important general regulator of CD8+ T cell cytotoxic function, in particular by suppressing expression of PFP, a major cytolytic protein implicated in the lytic function of cytotoxic lymphocytes.
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PMID:Regulation of lymphokine-activated killer activity and pore-forming protein gene expression in human peripheral blood CD8+ T lymphocytes. Inhibition by transforming growth factor-beta. 182 81

A membrane glycoprotein of human platelet dense granules, called granulophysin, with serologic homology to synaptophysin has recently been identified. To determine if this protein was present in granulated leukocytes, we examined several cell types for the presence of the protein by indirect immunofluorescence. Antigranulophysin mAb staining was detected in a granular pattern in the cytoplasm of permeabilized IL-2-stimulated CD3+ peripheral lymphocytes, neutrophils, U937 monocytes, and mast cells. Immunohistochemistry of human lymph nodes showed cytoplasmic staining of macrophages, neutrophils, and some dendritic cells. Induction of granule exocytosis in granulated CD3+ lymphocytes after stimulation with PMA and calcium ionophore A23187 resulted in a redistribution of the reactive epitope from the cytoplasm to the plasma membrane. Subcellular fractions contained two peaks of reactivity; the first peak coincided with N-benzyloxycarbonyl-L-lysine thiobenzyl ester-esterase activity in dense granules whereas the second peak was present in lighter fractions. The affinity purified protein from both peaks was identical in Western blot analysis and had a molecular mass of 28 kDa under reducing conditions. The protein could only be solubilized in detergent suggesting that it was an integral membrane protein. We have named this protein leukophysin to differentiate it from the 40-kDa granulophysin of platelets. Monocytes contained a protein with identical m.w. to leukophysin, whereas a protein of a slightly higher m.w. was detected in neutrophils. We propose that leukophysin is a common granule membrane protein of leukocytes.
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PMID:Leukophysin: a 28-kDa granule membrane protein of leukocytes. 183 62

L-Buthionine-(S,R)-sulfoximine (BSO) specifically depletes GSH synthesis by inactivating gamma-glutamylcysteine synthetase, whereas 2-ME augments intracellular GSH concentration. These reagents were used to examine GSH regulation of the proliferation and function of human PBL in response to IL-2 or OKT-3 mAb directed at the CD3 T cell Ag. 2-ME enhanced both IL-2-induced proliferation of PBL and CD3- large granular lymphocytes (LGL) and OKT-3 mAb-induced proliferation of CD3+ T cells. BSO partially suppressed activation-induced proliferation in CD3- LGL and CD3+ T cells and totally inhibited the positive co-proliferative regulation by 2-ME in these cells. By contrast, neither BSO nor 2-ME appeared to affect the activation-dependent differentiation of cytotoxic lymphocytes. The absence of effect of 2-ME or BSO on activation-induced PBL NK activity and T cell cytotoxic potential was supported by their negligible effect on the induction of two different markers of activated cytotoxic lymphocytes, namely pore-forming protein gene expression and benzoyloxycarbonyl-1-L-lysine thiobenzylester-esterase activity. BSO inhibition of CD3- LGL proliferation accounted for the inhibitory effects of BSO on both IFN-gamma production in IL-2-stimulated PBL cultures and IL-2-induced PBL lymphokine activated killer activity. The modulatory effects of 2-ME and BSO on lymphocyte proliferation regardless of phenotype (LGL vs T cell) or stimulation (IL-2, via CD3, lectin, etc.) and the functional differentiation of cytotoxic lymphocytes independent of proliferation suggests that these cells share a common site of GSH regulation close to or at the level of DNA synthesis.
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PMID:Glutathione modulates activation-dependent proliferation of human peripheral blood lymphocyte populations without regulating their activated function. 200 86

TCR-gamma delta+ CTL clones were generated from CD4-CD8- T cells that were stimulated twice with the cell line JY. Either IL-2 or IL-4 was used as growth factor. A number of TCR-gamma delta+ clones were found to lyse the stimulator cell line JY. Two of these clones secreted N alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester serine esterase activity after stimulation with JY cells. The cytotoxic activity of these two clones was blocked by a mAb specific for HLA-A2. Moreover, these two TCR-gamma delta+ clones selectively lysed human fibroblast line M1 and murine P815 cells transfected with DNA fragments encoding HLA-A2 but not those transfected with HLA-B7 encoding DNA, indicating that these clones recognize HLA-A2. Analysis of the recognition of HLA-A2 by using target cells transfected with mutated HLA-A2 encoding genes revealed that the nature of the amino acid at position 152 of the molecule is critical for recognition of the TCR-alpha beta+ as well as the TCR-gamma delta+ CTL clones since replacement of Val for Ala at that position resulted in abrogation of recognition of one TCR-gamma delta+ and one TCR-alpha beta+ clone and substitution of Val for Glu affected recognition of all clones. Substitution of Leu for Trp at position 156 abrogated recognition by one TCR-gamma delta+ and one TCR-alpha beta+ T cell clone, but recognition by the other clones was not changed. All clones were able to secrete IL-2, IFN-gamma, and GM-CSF but not IL-4 after activation.
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PMID:Cytotoxic activity and lymphokine production of T cell receptor (TCR)-alpha beta+ and TCR-gamma delta+ cytotoxic T lymphocyte (CTL) clones recognizing HLA-A2 and HLA-A2 mutants. Recognition of TCR-gamma delta+ CTL clones is affected by mutations at positions 152 and 156. 211 41

In previous studies, IL-4 has been reported to interfere with IL-2-driven generation of lymphokine-activated killer (LAK) activity. In this investigation, we have demonstrated that IL-4 inhibited the IL-2-induced differentiation of large granular lymphocytes (LGL) into LAK effectors by a mechanism involving, at least in part, an increase in LGL intracellular cAMP levels. In contrast, with its capacity to induce cAMP accumulation in resting LGL, IL-4 had a very negligible effect on LAK activity induction, and cAMP levels increase in LGL that had been preincubated with IL-2. Furthermore, the inhibitory effect of IL-4 on LAK activity generation also correlated with a marked decrease in N-CBZ-L-lysine thiobenzylester esterase activity, with an inhibition of tumor necrosis factor (TNF) mRNA expression and TNF production by IL-2-stimulated LGL. These results strongly suggest that complex signaling processes could be ascribed to the dual activities of cytokines and their interplay in LAK promotion.
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PMID:Involvement of cyclic adenosine monophosphate in the interleukin 4 inhibitory effect on interleukin 2-induced lymphokine-activated killer generation. 216 32

We have investigated the functional interaction between IL-2 and TNF on the generation of alloreactive CTL. The study was performed by using primary mixed cultures of lymphocytes from a MHC-recombinant sibling identical for MHC class II Ag (DR, DP, DQ) and displaying MHC class I disparity. Our data show that MHC class I disparity can trigger the induction of TNF receptor without promoting significant TNF production. Addition of exogenous TNF at the sensitizing phase of the primary mixed lymphocyte reaction did not result in CTL activation. However, when simultaneously added with IL-2, TNF could promote an optimal induction of cytotoxic T cell generation. The enhanced lytic ability of MHC class-I primed CTL by TNF was associated with a selective up-regulation of Tac Ag and subsequent amplification of cell proliferation. Furthermore, TNF was also found to induce a considerable increase in IL-2-induced intracellular benzyloxycarbonyl-L-lysine thiobenzylester-esterase activity by MHC class I-primed cells. TNF did not affect the expression of LFA1, CD2, CD4, and CD8, molecules that are associated with CTL-target interactions, on responder cells. These results extend our earlier observations on the role of class I MHC molecules that may function to transduce activation signals and suggest that TNF may be a potent mediator involved in the IL-2-induced acquisition of optimal lytic competence by precursor cytotoxic T cells.
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PMID:Evidence for tumor necrosis factor-alpha involvement in the optimal induction of class I allospecific cytotoxic T cells. 216 75

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 effect of human T cell leukemia/lymphoma virus type I (HTLV-I) infection on the function and the phenotype of a human proliferating/cytotoxic T cell clone, specific for tetanus toxin, was investigated. During the period after infection, two distinct phases were observed, based on growth properties, phenotype, and functional activity of the infected cells. Phase I HTLV-I infected cells (0 to about 150 days after infection) proliferated in an IL-2-dependent way, but without the requirement for repetitive antigenic stimulation. No differences in expression of the CD2, CD3, CD4, Tp103, and CD28 Ag between these cells and the parental cells could be demonstrated, with the exception of the expression of IL-R p55 and HLA-DR Ag, which were constitutively expressed on the phase I cells. The phase I HTLV-I-infected cells, as well as the parental 827 cells reacted with a mAb specific for an epitope on the variable part of the TCR beta-chain, indicating that the TCR was not altered after HTLV-I infection. Like the parental clone, the phase I cells proliferated in response to tetanus toxin, but the tetanus toxin-specific response of the phase I cells did not require the presence of APC. Results of experiments, in which the levels of intracellular Ca2+ were measured, indicated that HTLV-I cells can acquire the capability to process Ag and present that to themselves. Phase I HTLV-I-infected T cells had lost their cytotoxic activity which was likely to be due to an effect on the lytic machinery rather than on Ag recognition by the TCR, inasmuch as it was found that phase I HTLV-I-infected T cells did no longer contain N-alpha-benzyloxy-L-lysine thiobenzylester-serine esterase activity. Furthermore, it was found that phase I HTLV-I-infected T cells had a diminished capacity to form conjugates with target cells. From a period of about 200 days after HTLV-I infection, phase II cells emerged that proliferated strongly in the absence of IL-2 and that had lost all functional activity. These cells did not express the CD3/T cell receptor complex on their surface. Phase I as well as phase II HTLV-I-infected cells were targets for CTL raised in the autologous donor.
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PMID:Human T cell leukemia/lymphoma virus type I infection of a CD4+ proliferative/cytotoxic T cell clone progresses in at least two distinct phases based on changes in function and phenotype of the infected cells. 246 94

Analysis of Ag specificity of TRC-gamma delta+ T cells in humans has been hampered by the fact that cloned lines of these cells expanded in IL-2 generally display high NK-like cytotoxic activity. A TCR-gamma delta+ CTL clone, isolated in IL-4, strongly lysed a specific stimulator cell, the EBV-transformed cell line JY, but failed to lyse K562 and other target cells sensitive for NK cell activity. Subsequent culture of this clone (CD124) in IL-2 induced high cytotoxic activity against the NK sensitive target cells. K562 cells were unable to induce the secretion of N alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester [(BLT)-serine esterase] or influx of Ca2+ ions in clone CD124 cultured in either IL-4 or IL-2. In contrast, JY cells induced high BLT-serine esterase secretion and an increase of cytosolic Ca2+ levels. By using a combination of a 51Cr-release assay and a BLT-serine esterase secretion assay, the reactivity of clone CD124 against a limited number of target cells was analyzed. CD124 which expresses HLA-A2 and -B7, recognized an Ag shared by JY (HLA-A2; B7; C blank; DR4,6) and one haplotype expressed by the cell line SPS (HLA-A1; B14; Cw6; DR4). The only specificity shared by SPS and JY was HLA-DR4. However, clone CD124 failed to lyse 5 other HLA-DR4+ target cells. The cytotoxic activity of clone CD124 was inhibited by the class I MHC specific mAb W6/32 and the anti-beta 2m mAb A88, but not, or only marginally, by the anti HLA-DQ mAb SPV-L3 or the anti-HLA-DR mAb 135. These data strongly suggest that clone CD124 recognizes a class I MHC Ag different from HLA-A, -B, or -C.
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PMID:Antigen-specific, but not natural killer, activity of T cell receptor-gamma delta cytotoxic T lymphocyte clones involves secretion of N alpha-benzyloxycarbonyl-L-lysine thiobenzyl ester serine esterase and influx of Ca2+ ions. 247 1


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