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:3.4.22.56 (caspase-3)
35,750 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

It has been suggested that antitumor T cells specifically traffic to the tumor site, where they effect tumor destruction. To test whether tumor-reactive CD8(+) T cells specifically home to tumor, we assessed the trafficking of gp100-specific pmel-1 cells to large, vascularized tumors that express or do not express the target Ag. Activation of tumor-specific CD8(+) pmel-1 T cells with IL-2 and vaccination with an altered peptide ligand caused regression of gp100-positive tumors (B16), but not gp100-negative tumors (methylcholanthrene 205), implanted on opposing flanks of the same mouse. Surprisingly, we found approximately equal and very large numbers of pmel-1 T cells (>25% of all lymphocytes) infiltrating both Ag-positive and Ag-negative tumors. We also found evidence of massive infiltration and proliferation of activated antitumor pmel-1 cells in a variety of peripheral tissues, including lymph nodes, liver, spleen, and lungs, but not peripheral blood. Most importantly, evidence for T cell function, as measured by production of IFN-gamma, release of perforin, and activation of caspase-3 in target cells, was confined to Ag-expressing tumor. We thus conclude that CD8(+) T cell-mediated destruction of tumor is the result of specific T cell triggering at the tumor site. The ability to induce ubiquitous homing and specific tumor destruction may be important in the case of noninflammatory metastatic tumor foci.
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PMID:Vaccine-stimulated, adoptively transferred CD8+ T cells traffic indiscriminately and ubiquitously while mediating specific tumor destruction. 1558 42

Andrographolide is the main labdane diterpene present in Andrographis paniculata. Two lines of evidence report immunostimulant and anti-inflammatory properties for andrographolide in different models. Using murine T-cells in vitro we demonstrated that andrographolide and to a lesser extent, 14-deoxyandrographolide (14-DAP), reduced significantly, in a dose-dependent manner, the IFN-gamma production induced by concanavaline A (CON-A), with an IC50 of 1.7 +/- 0.07 microM and 35.8 +/- 0.50 microM, respectively. Andrographolide, but not 14-DAP, inhibited partially the IL-2 production induced by CON-A. Andrographolide at doses of 5 and 10 microM reduced the extracellular-signal-regulated protein kinase (ERK1/2) phosphorylation induced by CON-A, whereas 14-DAP only reduced ERK1 and partially the ERK2 phosphorylation. The inhibition of ERK1/2 phosphorylation was associated to a decrease in the IFN-gamma production, due that UO126, a specific ERK1/2 inhibitor, also reduced the IFN-gamma production in murine T-cells induced by CON-A. Additionally, andrographolide and to a lesser extent 14-DAP, at doses of 50 microM and 100 microM, respectively, reduced the apoptosis induced by hydrocortisone and PMA in thymocytes, which was associated to a decrease in caspase-3 like activity. We conclude that both diterpenic labdanes isolated from A. paniculata can exert potent immunosuppressant effects without affecting the viability of the cells.
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PMID:Andrographolide inhibits IFN-gamma and IL-2 cytokine production and protects against cell apoptosis. 1593 81

Th1/Tc1 inflammation and remodeling responses characterized by tissue atrophy and destruction frequently coexist in human diseases and disorders. However, the mechanisms that are used by Th1/Tc1 cytokines, like IFN-gamma, to induce these responses have not been defined. To elucidate the mechanism(s) of IFN-gamma-induced tissue remodeling and destruction, we characterized the pathway that lung-targeted, transgenic IFN-gamma uses to induce alveolar remodeling in a murine pulmonary emphysema modeling system. In these mice, transgenic IFN-gamma caused epithelial cell DNA injury and apoptosis detectable with TUNEL (Roche) and dual annexin V and propidium iodide staining. These responses were associated with death receptor and mitochondrial apoptosis pathway activation. Importantly, apoptosis inhibition with a caspase inhibitor (N-benzylcarboxy-Val-Ala-Asp-fluoromethyl-ketone) or a null mutation of caspase-3 blocked this DNA injury and apoptosis response and significantly ameliorated IFN-gamma-induced emphysema. These interventions also ameliorated IFN-gamma-induced inflammation and decreased pulmonary protease burden. Selective cathepsin S inhibition and a null mutation of cathepsin S also decreased IFN-gamma-induced DNA injury, apoptosis, emphysema, inflammation, and protease accumulation. These studies demonstrate that cathepsin S-dependent epithelial cell apoptosis is a critical event in the pathogenesis of IFN-gamma-induced alveolar remodeling and emphysema. They also link inflammation, protease/antiprotease alterations, and protease-dependent apoptosis in the pathogenesis of Th1/Tc1 cytokine-induced tissue remodeling and destructive responses.
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PMID:Role of cathepsin S-dependent epithelial cell apoptosis in IFN-gamma-induced alveolar remodeling and pulmonary emphysema. 1594 19

NKT cells expressing phenotypic markers of both T and NK cells seem to be pivotal in murine models of immune-mediated liver injury, e.g., in Con A-induced hepatitis. Also alpha-galactosylceramide (alpha-GalCer), a specific ligand for invariant Valpha14 NKT cells, induces hepatic injury. To improve the comprehension of NKT-cell mediated liver injury, we investigated concomitants and prerequisites of alpha-GalCer-induced hepatitis in mice. Liver injury induced by alpha-GalCer injection into C57BL/6 mice was accompanied by intrahepatic caspase-3 activity but appeared independent thereof. alpha-GalCer injection also induces pronounced cytokine responses, including TNF-alpha, IFN-gamma, IL-2, IL-4, and IL-6. We provide a detailed time course for the expression of these cytokines, both in liver and plasma. Cytokine neutralization revealed that, unlike Con A-induced hepatitis, IFN-gamma is not only dispensable for alpha-GalCer-induced hepatotoxicity but even appears to exert protective effects. In contrast, TNF-alpha was clearly identified as an important mediator for hepatic injury in this model that increased Fas ligand expression on NKT cells. Whereas intrahepatic Kupffer cells are known as a pivotal source for TNF-alpha in Con A-induced hepatitis, they were nonessential for alpha-GalCer-mediated hepatotoxicity. In alpha-GalCer-treated mice, TNF-alpha was produced by intrahepatic lymphocytes, in particular NKT cells. BALB/c mice were significantly less susceptible to alpha-GalCer-induced liver injury than C57BL/6 mice, in particular upon pretreatment with d-galactosamine, a hepatocyte-specific sensitizer to TNF-alpha-mediated injury. Finally, we demonstrate resemblance of murine alpha-GalCer-induced hepatitis to human autoimmune-like liver disorders. The particular features of this model compared with other immune-mediated hepatitis models may enhance comprehension of basic mechanisms in the etiopathogenesis of NKT cell-comprising liver disorders.
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PMID:Alpha-galactosylceramide-induced liver injury in mice is mediated by TNF-alpha but independent of Kupffer cells. 1603 92

Th1 inflammation and remodeling characterized by tissue destruction frequently coexist in human diseases. To further understand the mechanisms of these responses, we defined the role(s) of CCR5 in the pathogenesis of IFN-gamma-induced inflammation and remodeling in a murine emphysema model. IFN-gamma was a potent stimulator of the CCR5 ligands macrophage inflammatory protein-1alpha/CCL-3 (MIP-1alpha/CCL-3), MIP-1beta/CCL-4, and RANTES/CCL-5, among others. Antibody neutralization or null mutation of CCR5 decreased IFN-gamma-induced inflammation, DNA injury, apoptosis, and alveolar remodeling. These interventions decreased the expression of select chemokines, including CCR5 ligands and MMP-9, and increased levels of secretory leukocyte protease inhibitor. They also decreased the expression and/or activation of Fas, FasL, TNF, caspase-3, -8, and -9, Bid, and Bax. In accordance with these findings, cigarette smoke induced pulmonary inflammation, DNA injury, apoptosis, and emphysema via an IFN-gamma-dependent pathway(s), and a null mutation of CCR5 decreased these responses. These studies demonstrate that IFN-gamma is a potent stimulator of CC and CXC chemokines and highlight the importance of CCR5 in the pathogenesis of IFN-gamma-induced and cigarette smoke-induced inflammation, tissue remodeling, and emphysema. They also demonstrate that CCR5 is required for optimal IFN-gamma stimulation of its own ligands, other chemokines, MMPs, caspases, and cell death regulators and the inhibition of antiproteases.
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PMID:Role of CCR5 in IFN-gamma-induced and cigarette smoke-induced emphysema. 1628 50

Flavonoids are one of the biologically active plant food constituents, possessing potential chemopreventive properties against a wide variety of chronic diseases. Apigenin, a common dietary flavonoid abundantly present in fruits and vegetables is believed to possess preventive and therapeutic potential against various cancers. In the present study, we have evaluated regulation of apoptotic cell death by apigenin (25 and 50 microM) in human hepatoblastoma derived cell line Hep G2. Apigenin-induced programme cell death in terms of TNF-alpha, IFN-gamma release and induction of caspases activity. TNF-alpha and IFN-gamma levels in apigenin-pretreated groups were significantly and dose dependently elevated as compared to the control values (28-39% and 66-85%), (208-336% and 579-1088%), respectively. Treatment of apigenin significantly induced caspase-3, -7, -10 and caspase-9 activity (160-209% and 203-270%) in a dose-dependent manner. The effects on caspases, TNF-alpha, and IFN-gamma processes mediate the plausible mechanism of apoptosis induction of apigenin.
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PMID:Apigenin induces apoptosis in Hep G2 cells: possible role of TNF-alpha and IFN-gamma. 1628 92

Type 1 and type 2 diabetes are characterized by progressive beta-cell failure. Apoptosis is probably the main form of beta-cell death in both forms of the disease. It has been suggested that the mechanisms leading to nutrient- and cytokine-induced beta-cell death in type 2 and type 1 diabetes, respectively, share the activation of a final common pathway involving interleukin (IL)-1beta, nuclear factor (NF)-kappaB, and Fas. We review herein the similarities and differences between the mechanisms of beta-cell death in type 1 and type 2 diabetes. In the insulitis lesion in type 1 diabetes, invading immune cells produce cytokines, such as IL-1beta, tumor necrosis factor (TNF)-alpha, and interferon (IFN)-gamma. IL-1beta and/or TNF-alpha plus IFN-gamma induce beta-cell apoptosis via the activation of beta-cell gene networks under the control of the transcription factors NF-kappaB and STAT-1. NF-kappaB activation leads to production of nitric oxide (NO) and chemokines and depletion of endoplasmic reticulum (ER) calcium. The execution of beta-cell death occurs through activation of mitogen-activated protein kinases, via triggering of ER stress and by the release of mitochondrial death signals. Chronic exposure to elevated levels of glucose and free fatty acids (FFAs) causes beta-cell dysfunction and may induce beta-cell apoptosis in type 2 diabetes. Exposure to high glucose has dual effects, triggering initially "glucose hypersensitization" and later apoptosis, via different mechanisms. High glucose, however, does not induce or activate IL-1beta, NF-kappaB, or inducible nitric oxide synthase in rat or human beta-cells in vitro or in vivo in Psammomys obesus. FFAs may cause beta-cell apoptosis via ER stress, which is NF-kappaB and NO independent. Thus, cytokines and nutrients trigger beta-cell death by fundamentally different mechanisms, namely an NF-kappaB-dependent mechanism that culminates in caspase-3 activation for cytokines and an NF-kappaB-independent mechanism for nutrients. This argues against a unifying hypothesis for the mechanisms of beta-cell death in type 1 and type 2 diabetes and suggests that different approaches will be required to prevent beta-cell death in type 1 and type 2 diabetes.
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PMID:Mechanisms of pancreatic beta-cell death in type 1 and type 2 diabetes: many differences, few similarities. 1630 47

The ability of cancers to evade immune surveillance and resist immunotherapy raises a fundamental question of how tumor cells survive in the presence of a competent immune system. Studies to address this question have primarily focused on mechanisms by which tumor cells avoid recognition by or induce tolerance in the immune system. However, little is known about whether cancer cells also acquire an intrinsic ability to resist killing by immune effectors. We find that cancer cells enhance their ability to withstand an attack by cytotoxic immune effector cells via acquisition of specific genetic alterations that interfere with the shared mitochondrial death signaling pathway entrained by granzyme B, IFN-gamma, and Apo2 ligand/tumor necrosis factor-related apoptosis inducing ligand (Apo2L/TRAIL), three key mediators of immunologic cell-mediated cytotoxicity. We show that the coexistence of specific mitochondrial signaling defects (either deletion of Bax, overexpression of Bcl-x(L), or deletion of Smac) with expression of X-linked inhibitor of apoptosis protein decreases the sensitivity of cancer cells to IFN-gamma/Apo2L/TRAIL- or granzyme B-induced apoptosis, lymphocyte-mediated cytotoxicity in vitro, and adoptive cellular immunotherapy in vivo. Conversely, negating X-linked inhibitor of apoptosis protein expression or function in tumor cells with defective mitochondrial signaling enables direct activation of caspase-3/-7 by granzyme B or Apo2L/TRAIL, and restores their susceptibility to immunologic cytotoxicity. These findings identify an important mechanism by which cancers evade elimination by immune effector cells and suggest that cancer immunotherapy might be improved by concurrent strategies to alleviate or circumvent the intrinsic mitochondrial death signaling defects that help cancer cells resist immunologic cytotoxicity.
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PMID:Resistance of cancers to immunologic cytotoxicity and adoptive immunotherapy via X-linked inhibitor of apoptosis protein expression and coexisting defects in mitochondrial death signaling. 1645 33

Malignant cancers commonly spread by local invasion followed by metastasis through venous or lymphatic passages or both to distant sites. Angiogenesis and its relation to tumor growth and metastasis have been extensively researched. To date, however, the role played by lymphangiogenesis and metastasis of cancer has been overlooked. Inhibition of lymphangiogenesis, compared with inhibition of angiogenesis, may provide new insight to the mechanisms of metastasis of cancers. The current study was designed to examine the effect of two commonly used inhibitors of angiogenesis, interferon-alpha (IFN-alpha ) and IFN-gamma, on the growth and proliferation of lymphatic endothelial (LE) cells isolated from pig thoracic duct under in vitro condition. The LE cells were isolated and marked using specific markers, such as VEGFR-3 and LYVE-1, before experimental studies. The results showed that treatment of LE cells derived from the thoracic duct with these two inhibitors caused a decrease in the rate of cell proliferation in a dose-dependent manner, as assessed by MTT assays (tetrazolium salt colorimetric assay). Cell migration rate was assessed by the speed at which the cell migrated out from the scrape-wound margin; the speed of migration of LE cells was significantly inhibited in a dose-dependent fashion compared with controls. Treatment with both IFN-alpha and IFN-gamma caused an increase in apoptosis of LE cells, as assessed by Hoechst staining and caspase-3 staining. Our results showed that both IFN-alpha and IFN-gamma were able to inhibit LE cell growth in a dose-dependent manner and that the inhibition may be through induction of apoptosis of endothelial cells.
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PMID:Influence of IFN- alpha and IFN- gamma on lymphangiogenesis. 1688 67

The cathepsin B inhibitor, benzyloxycarbonyl-phenyl-alanyl-fluoromethylketone (z-FA-FMK) at nontoxic doses was found to be immunosuppressive and repressed human T cell proliferation induced by mitogens and IL-2 in vitro. We showed that z-FA-FMK suppresses the secretion of IL-2 and IFN-gamma as well as the expression of IL-2R alpha-chain (CD25) in activated T cells, whereas the expression of the early activated T cell marker, CD69, was unaffected. Furthermore, z-FA-FMK blocks NF-kappaB activation, inhibits T cell blast formation, and prevents cells from entering and leaving the cell cycle. z-FA-FMK inhibits the processing of caspase-8 and caspase-3 to their respective subunits in resting T cells stimulated through the Ag receptor, but has no effect on the activation of these caspases during Fas-induced apoptosis in proliferating T cells. When administered in vivo, z-FA-FMK significantly increased pneumococcal growth in both lungs and blood, compared with controls, in a mouse model of intranasal pneumococcal infection. Because host response to bronchopneumonia in mice is T cell dependent, our collective results demonstrated that z-FA-FMK is immunosuppressive in vitro and in vivo.
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PMID:The cathepsin B inhibitor, z-FA-FMK, inhibits human T cell proliferation in vitro and modulates host response to pneumococcal infection in vivo. 1695 45


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