EC:3.4.22.36 - FACTA Search

Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.4.22.36 (caspase-1)
6,285 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Tenidap is an anti-inflammatory drug whose mechanism of action is not fully understood. It has been shown to block plasma membrane anion transport and to decrease release of interleukin-1beta, probably via the inhibition of interleukin-1beta converting enzyme. In the present study we showed that: (a) tenidap increases the sensitivity of mouse macrophages to cytotoxic effects mediated by extracellular ATP; (b) tenidap increases lucifer yellow uptake through the macrophage ATP receptor; (c) pretreatment with oxidised ATP, a blocker of the P2Z/P2X7 receptor, inhibits cytotoxicity and lucifer yellow uptake due to the combined effects of ATP and tenidap; (d) macrophages lacking the P2Z/P2X7 receptor are resistant to the synergistic effect of tenidap and ATP. The results suggest that tenidap synergises with extracellular ATP for activation of the P2Z/P2X7 receptor.
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PMID:Tenidap enhances P2Z/P2X7 receptor signalling in macrophages. 976 38

Myeloic cells express a peculiar surface receptor for extracellular ATP, called the P2Z/P2X7 purinoreceptor, which is involved in cell death signalling. Here, we investigated the role of caspases, a family of proteases implicated in apoptosis and the cytokine secretion. We observed that extracellular ATP induced the activation of multiple caspases including caspase-1, -3 and -8, and subsequent cleavage of the caspase substrates PARP and lamin B. Using caspase inhibitors, it was found that caspases were specifically involved in ATP-induced apoptotic damage such as chromatin condensation and DNA fragmentation. In contrast, inhibition of caspases only marginally affected necrotic alterations and cell death proceeded normally whether or not nuclear damage was blocked. Our results therefore suggest that the activation of caspases by the P2Z receptor is required for apoptotic but not necrotic alterations of ATP-induced cell death.
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PMID:P2Z purinoreceptor ligation induces activation of caspases with distinct roles in apoptotic and necrotic alterations of cell death. 1021 85

In human and rodent macrophages, activation of the P2X7 nucleotide receptor stimulates interleukin-1beta processing and release, apoptosis, and killing of intracellular Mycobacterium tuberculosis. Signaling pathways downstream of this ionotropic ATP receptor are poorly understood. Here we describe the rapid activation of the stress-activated protein kinase (SAPK)/JNK pathway in BAC1 murine macrophages stimulated by extracellular ATP. Brief exposure of the cells to ATP (10-30 min) was sufficient to trigger a rapid accumulation of activated SAPK that was then sustained for >120 min. Several observations indicated that the P2X7 receptor mediated this effect. 1) ATP and 3'-O-(4-benzoyl)benzoyl-ATP were the only agonistic nucleotides. 2) The effect was inhibited by oxidized ATP and the isoquinoline KN-62, two known P2X7 receptor antagonists. 3) ATP-induced SAPK activation could be recapitulated in P2X7 receptor-transfected HEK293 cells, but not in wild-type HEK293 cells. Because P2X7 receptor stimulation can rapidly activate caspase family proteases that have been implicated in the induction of the SAPK pathway, we investigated whether ATP-dependent SAPK activation involved such proteases. Brief exposure of BAC1 macrophages to extracellular ATP induced DNA fragmentation, alpha-fodrin breakdown, and elevated levels of caspase-3-type activity. Asp-Glu-Val-Asp-cho, a caspase-3 inhibitor, inhibited ATP-induced DNA fragmentation and alpha-fodrin proteolysis, but had no effect on ATP-induced SAPK activation. Tyr-Val-Ala-Asp-chloromethyl ketone, a caspase-1 inhibitor, prevented ATP-induced release of processed interleukin-1beta, but not ATP-dependent SAPK activity. We conclude that activation of ionotropic P2X7 nucleotide receptors triggers a strong activation of SAPK via a pathway independent of caspase-1- or caspase-3-like proteases.
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PMID:Stress-activated protein kinase/JNK activation and apoptotic induction by the macrophage P2X7 nucleotide receptor. 1085 31

Interleukin (IL)-1beta and IL-18 are structurally similar proteins that require caspase-1 processing for activation. Both proteins are released from the cytosol by unknown pathway(s). To better characterize the release pathway(s) for IL-1beta and IL-18 we evaluated the role of lipopolysaccharide priming, of interleukin-1beta-converting enzyme (ICE) inhibition, of human purinergic receptor (P2X(7)) function, and of signaling pathways in human monocytes induced by ATP. Monocytes rapidly processed and released both IL-1beta and IL-18 after exogenous ATP. Despite its constitutive cytosolic presence, IL-18 required lipopolysaccharide priming for the ATP-induced release. Neither IL-1beta nor IL-18 release was prevented by ICE inhibition, and IL-18 release was not induced by ICE activation itself. Release of both cytokines was blocked completely by a P2X7 receptor antagonist, oxidized ATP, and partially by an antibody to P2X(7) receptor. In evaluating the signaling components involved in the ATP effect, we identified that the protein-tyrosine kinase inhibitor, AG126, produced a profound inhibition of both ICE activation as well as release of IL-1beta/IL-18. Taken together, these results suggest that, although synthesis of IL-1beta and IL-18 differ, ATP-mediated release of both cytokines requires a priming step but not proteolytically functional caspase-1.
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PMID:ATP-stimulated release of interleukin (IL)-1beta and IL-18 requires priming by lipopolysaccharide and is independent of caspase-1 cleavage. 1105 57

ATP stimulation of cell surface P2X7 receptors results in cytolysis and cell death of macrophages. Activation of this receptor in bacterial lipopolysaccharide (LPS)-activated macrophages or monocytes also stimulates processing and release of the cytokine interleukin-1beta(IL-1beta) through activation of caspase-1. The cytokine interleukin 18 (IL-18) is also cleaved by caspase-1 and shares pro-inflammatory characteristics with IL-1beta. The objective of the present study was to test the hypothesis that IL-1beta, IL-18, and/or caspase-1 activation contribute directly to macrophage cell death induced by LPS and ATP. Macrophages were cultured from normal mice or those in which genes for the P2X7 receptor, IL-1beta, IL-1alpha, IL-18, or caspase-1 had been deleted. Our data confirm the importance of the P2X7 receptor in ATP-stimulated cell death and IL-1beta release from LPS-primed macrophages. We demonstrate that prolonged stimulation with ATP leads to cell death, which is partly dependent on LPS priming and caspase-1, but independent of cytokine processing and release. We also provide evidence that LPS priming of macrophages makes them highly susceptible to the toxic effects of brief exposure to ATP, which leads to rapid cell death by a mechanism that is dependent on caspase-1 but, again, independent of cytokine processing and release.
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PMID:Priming of macrophages with lipopolysaccharide potentiates P2X7-mediated cell death via a caspase-1-dependent mechanism, independently of cytokine production. 1170 16

Interleukin-1 is a primary mediator of immune responses to injury and infection, but the mechanism of its cellular release is unknown. IL-1 exists as two agonist forms (IL-1 alpha and IL-1 beta) present in the cytosol of activated monocytes/macrophages. IL-1 beta is synthesized as an inactive precursor that lacks a signal sequence, and its trafficking does not use the classical endoplasmic reticulum-Golgi route of secretion. Using primary cultured murine peritoneal macrophages, we demonstrate that P2X7 receptor activation causes release of IL-1 beta and IL-1 alpha via a common pathway, dependent upon the release of Ca(2+) from endoplasmic reticulum stores and caspase-1 activity. Increases in intracellular Ca(2+) alone do not promote IL-1 secretion because a concomitant efflux of K(+) through the plasmalemma is required. In addition, we demonstrate the existence of an alternative pathway for the secretion of IL-1 alpha, independent of P2X7 receptor activation, but dependent upon Ca(2+) influx. The identification of these mechanisms provides insight into the mechanism of IL-1 secretion, and may lead to the identification of targets for the therapeutic modulation of IL-1 action in inflammation.
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PMID:Ca2+ stores and Ca2+ entry differentially contribute to the release of IL-1 beta and IL-1 alpha from murine macrophages. 1262 57

Interleukin (IL)-1beta is a proinflammatory cytokine that elicits the majority of its biological activity extracellularly, but the lack of a secretory signal sequence prevents its export via classic secretory pathways. Efficient externalization of IL-1beta in macrophages and monocytes can occur via stimulation of P2X7 nucleotide receptors with extracellular ATP. However, the exact mechanisms by which the activation of these nonselective cation channels facilitates secretion of IL-1beta remain unclear. Here we demonstrate a pivotal role for a sustained increase in cytosolic Ca2+ to potentiate secretion of IL-1beta via the P2X7 receptors. Using HEK-293 cells engineered to coexpress P2X7 receptors with mature IL-1beta (mIL-1beta), we show that activation of P2X7 receptors results in a rapid secretion of mIL-1beta by a process(es) that is dependent on influx of extracellular Ca2+ and a sustained rise in cytosolic Ca2+. Moreover, reduction in extracellular Ca2+ attenuates approximately 90% of P2X7 receptor-mediated IL-1beta secretion but has no effect on enzymatic processing of precursor IL-1beta (proIL-1beta) to mIL-1beta by caspase-1. Similar experiments with THP-1 human monocytes and Bac1.2F5 murine macrophages confirm the unique role of Ca2+ in P2X7 receptor-mediated secretion of IL-1beta. In addition, we report that cell surface expression of P2X7 receptors in the absence of external stimulation also results in enhanced release of IL-1beta and that this can be repressed by inhibitors of P2X7 receptors. We clarify an essential role for Ca2+ in ATP-induced IL-1beta secretion and indicate an additional role of P2X7 receptors as enhancers of the secretory apparatus by which IL-1beta is released.
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PMID:Essential role for Ca2+ in regulation of IL-1beta secretion by P2X7 nucleotide receptor in monocytes, macrophages, and HEK-293 cells. 1266 Jan 48

Interleukin-1 (IL-1) expression in the brain increases in response to acute and chronic insults, and IL-1 contributes directly to experimentally induced ischaemic, excitotoxic, and traumatic brain injury. Release and cleavage of active IL-1 beta may be achieved via purinergic P2X7 receptors and activation of caspase-1. The mechanisms of action of IL-1 are largely unknown, but may involve effects on glia, endothelia, and neurones, or on physical parameters within the brain such as temperature or acidity. The naturally occurring IL-1 receptor antagonist (IL-1ra) is currently being considered for treatment of stroke and other disorders.
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PMID:Interleukin-1 and neuronal injury: mechanisms, modification, and therapeutic potential. 1270 13

The proinflammatory cytokines IL-1beta and IL-18 are inactive until cleaved by the enzyme caspase-1. Stimulation of the P2X7 receptor (P2X7R), an ATP-gated ion channel, triggers rapid activation of caspase-1. In this study we demonstrate that pretreatment of primary and Bac1 murine macrophages with TLR agonists is required for caspase-1 activation by P2X7R but it is not required for activation of the receptor itself. Caspase-1 activation by nigericin, a K+/H+ ionophore, similarly requires LPS priming. This priming by LPS is dependent on protein synthesis, given that cyclohexamide blocks the ability of LPS to prime macrophages for activation of caspase-1 by the P2X7R. This protein synthesis is likely mediated by NF-kappaB, as pretreatment of cells with the proteasome inhibitor MG132, or the IkappaB kinase inhibitor Bay 11-7085 before LPS stimulation blocks the ability of LPS to potentiate the activation of caspase-1 by the P2X7R. Thus, caspase-1 regulation in macrophages requires inflammatory stimuli that signal through the TLRs to up-regulate gene products required for activation of the caspase-1 processing machinery in response to K+-releasing stimuli such as ATP.
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PMID:Potentiation of caspase-1 activation by the P2X7 receptor is dependent on TLR signals and requires NF-kappaB-driven protein synthesis. 1630 71

The P2X7 receptor (P2X7R) is an ATP-gated cation channel that activates caspase-1 leading to the maturation and secretion of IL-1beta. Because previous studies indicated that extracellular Cl- exerts a negative allosteric effect on ATP-gating of P2X7R channels, we tested whether Cl- attenuates the P2X7R-->caspase-1-->IL-1beta signaling cascade in murine and human macrophages. In Bac1 murine macrophages, substitution of extracellular Cl- with gluconate produced a 10-fold increase in the rate and extent of ATP-induced IL-1beta processing and secretion, while reducing the EC50 for ATP by 5-fold. Replacement of Cl- with gluconate also increased the potency of ATP as an inducer of mature IL-1beta secretion in primary mouse bone marrow-derived macrophages and in THP-1 human monocytes/macrophages. Our observations were consistent with actions of Cl- at three levels: 1) a negative allosteric effect of Cl-, which limits the ability of ATP to gate the P2X7R-mediated cation fluxes that trigger caspase-1 activation; 2) an intracellular accumulation of Cl- via nonselective pores induced by P2X7R with consequential repression of caspase-1-mediated processing of IL-1beta; and 3) a facilitative effect of Cl- substitution on the cytolytic release of unprocessed pro-IL-1beta that occurs with sustained activation of P2X7R. This cytolysis was repressed by the cytoprotectant glycine, permitting dissociation of P2X7R-regulated secretion of mature IL-1beta from the lytic release of pro-IL-1beta. These results suggest that under physiological conditions P2X7R are maintained in a conformationally restrained state that limits channel gating and coupling of the receptor to signaling pathways that regulate caspase-1.
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PMID:Inhibitory effects of chloride on the activation of caspase-1, IL-1beta secretion, and cytolysis by the P2X7 receptor. 1630 72

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