UNIPROT:P10145 - FACTA Search

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Query: UNIPROT:P10145 (IL-8)
23,849 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cyclic AMP (adenosine 3':5'-cyclic monophosphate, cAMP) is an intracellular second messenger that mediates the actions of endogenous hormones and neurotransmitters and also of drugs such as beta-adrenoceptor agonists. The presence of functional beta-adrenoceptors on human airway epithelial cells has been demonstrated but the expression of the cAMP-metabolizing enzyme, cyclic nucleotide phosphodiesterase (PDE) in these cells has not been studied. We investigated the profile of activity of the different PDE isoenzymes in lysates of a pulmonary epithelial cell line, A549, and of human bronchial epithelial (HBE) cells grown in primary culture. The effects of non-selective and isoenzyme-selective PDE inhibitors on beta-agonist-induced elevations in intracellular cAMP concentrations and the production of interleukin (IL) 8 and prostaglandin (PG) E2 was also investigated. A549 cells expressed a high level of PDE4, lower levels of PDE1 and PDE3, and minor PDE5 activity. Primary HBE cultures expressed PDE4 and PDE1 activity at approximately equal levels with small additional PDE3 and PDE5 activities. The total PDE activity of the HBE cells was approximately nine-fold lower than that of A549 cells. The beta-adrenoceptor agonist salbutamol, caused a slow, concentration-dependent increase in intracellular cAMP levels in HBE cells which was not affected by a non-selective PDE inhibitor, IBMX (100 microM), or by a selective PDE4 inhibitor, rolipram (100 microM). Zardaverine, a dual-selective PDE3/PDE4 inhibitor, had no effect on cAMP levels at 10 microM but did cause a significant enhancement of salbutamol-induced elevations at 100 microM (150+/-36 pmol/10(5) cells at 10 microM salbutamol vs. 64+/-25 pmol/10(5) cells in the absence of zardaverine; n=3,P<0.01). Neither basal nor tumour necrosis factor alpha (10 ng/ml)-induced IL8 secretion was affected by salbutamol (10 microM) in the absence or presence of IBMX (100 microM). Salbutamol (10 microM), alone or in the presence of IBMX (100 microM) or rolipram (100 microM), also failed to affect basal or bradykinin (1 microM)-induced PGE2 release. Zardaverine (100 microM) caused a significant increase in basal PGE2 release but this was not enhanced in the presence of salbutamol (10 microM) and was not related to changes in cAMP levels. We conclude that HBE cells express a low total PDE activity, made up predominantly of PDE1 and PDE4 isoenzymes, and that intracellular cAMP levels in HBE cells are not related to the production of IL8 or PGE2.
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PMID:Cyclic nucleotide phosphodiesterase in human bronchial epithelial cells: characterization of isoenzymes and functional effects of PDE inhibitors. 980 63

In the present study, we evaluated the potential of bradykinin (BK) to induce the release of neutrophil and monocyte chemotactic activity (NCA and MCA) and cytokines from an alveolar type II epithelial cell line, A549 cells. BK stimulated A549 cells to release NCA and MCA in a dose- and time-dependent manner (P < 0.001). Checkerboard analysis revealed that both NCA and MCA involved chemotactic and chemokinetic activity. Molecular sieve column chromatography showed three molecular weight masses (near 19 kd, 8 kd, and 400 d) for NCA and several molecular weight peaks (near 66 kd, 25 kd, 19 kd, 16 kd, and 400 d) for MCA. The release of NCA and MCA was inhibited by cycloheximide and lipoxygenase inhibitors (P < 0.01). The NCA and MCA were inhibited by leukotriene B4 (LTB4) receptor antagonist (P < 0.01), and the concentration of LTB4 was high enough for NCA and MCA. Antibodies to interleukin (IL)-8 and granulocyte colony-stimulating factor (G-CSF) attenuated NCA (P < 0.01), and antibodies to monocyte chemotactic protein-1 (MCP-1), G-CSF, and transforming growth factor (TGF)-beta attenuated MCA (P < 0.01). The levels of IL-8, G-CSF, MCP-1, and TGF-beta increased time dependently (P < 0.01). BK also stimulated the release of ILeukin-6 from A549 cells (P < 0.001). The receptors responsible for the release of NCA, MCA, and individual chemokines involved both BKB1 and BKB2 receptors. These data suggest that BK may stimulate alveolar type II pneumocytes to release inflammatory cytokines, which then may modulate the lung inflammation.
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PMID:Bradykinin stimulates type II alveolar cells to release neutrophil and monocyte chemotactic activity and inflammatory cytokines. 984 78

We recently reported on the successful generation of immortalized (CEPI-17-CL4) cells from primary human corneal epithelial (P-CEPI) cells which exhibited phenotypic, immunohistochemical and metabolic characteristics akin to the P-CEPI cells. The aims of the present studies were to investigate the ligand binding and functional coupling of the histamine receptors to various biochemical and physiological systems in the P-CEPI and CEPI-17-CL4 cells and to relate these findings to the normal and/or pathophysiological role of histamine on the human ocular surface. Specific [3H]-pyrilamine binding to CEPI-17-CL4 cell homogenates comprised >93% of the total binding and represented interaction with an apparent single population of high affinity (Kd=3.76+/-0.78 nM; n=4) and saturable (Bmax = 1582+/-161 fmol g(-1) tissue) number of histamine-1 (H1) receptor binding sites on CEPI-17-CL4 cell homogenates. The H1-receptor selective antagonists, pyrilamine (Ki=3.6+/-0.84 nM, n=4) and triprolidine (Ki = 7.7+/-2.6 nM, n=3), potently displaced [3H]-pyrilamine binding, while the H2- and H3-receptor selective antagonists, ranitidine and clobenpropit, were weak inhibitors (K(i)s>13 microM). Histamine induced phosphoinositide (PI) hydrolysis 2.7-4.4 fold above basal levels and with a potency of 14.9+/-4.9 microM (n=9) and 4.7+/-0.2 microM (n=9) in P-CEPI and CEPI-17-CL4 cells, respectively. Histamine-induced PI turnover was antagonized by H1-receptor selective antagonist, triprolidine, with a potency (Ki) of 3.2+/-0.66 nM (n=10) and 3.03+/-0.8 nM (n=4) in P-CEPI and CEPI-17-CL4 cells, respectively, but weakly effected by 10 microM cimetidine and clobenpropit, H2- and H3-receptor antagonists. The PI turnover response was attenuated by pre-treatment of the cells with the selective phospholipase C inhibitor, U73122 (1-(6-((17beta-3-methoxyestra- 1,3,5(10)-trien-17-yl)amino)hexyl)-1H-pyrrole-2,5-dione) (IC50=4.8+/-2.4 microM, n = 3). Histamine stimulated intracellular Ca2+ ([Ca2+]i) mobilization in CEPI-17-CL4 cells with a potency of 6.3+/-1.5 microM (n=4). The histamine-induced [Ca2+]i mobilization was reduced by about 28% following pre-incubation of the cells with 4 mM EGTA. While triprolidine completely inhibited histamine-induced [Ca2+]i mobilization, it did not influence the bradykinin-induced [Ca2+]i mobilization response. Histamine (EC50s = 1.28-2.77 microM, n=3-4) concentration-dependently stimulated the release of interleukin-6 (IL-6), IL-8 and granulocyte macrophage colony-stimulating factor, but it did not significantly alter release of tumour necrosis factor-alpha, PGE2 or collagenase-1 (matrix metalloproteinase-1; MMP-1) from CEPI cells. However, IL-1 (10 ng ml(-1)), foetal bovine serum (10%) and phorbol-12-myristate-13-acetate (3 microg ml(-1)) were effective positive control secretagogues of all the cytokines, PGE2 and MMP-1, respectively, from these cells. It is concluded that the CEPI cells express H1-histamine receptors which are positively coupled to PI turnover and [Ca2+]i mobilization which may be directly or indirectly responsible for the release of various cytokines from these cells at physiologically and/or pathologically relevant concentrations.
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PMID:Pharmacology of [3H]-pyrilamine binding and of the histamine-induced inositol phosphates generation, intracellular Ca2+ -mobilization and cytokine release from human corneal epithelial cells. 986 65

1. The effect of IL-4 on responses to intraplantar (i.pl.) carrageenin, bradykinin, TNFalpha, IL-1beta, IL-8 and PGE2 was investigated in a model of mechanical hyperalgesia in rats. Also, the cellular source of the IL-4 was investigated. 2. IL-4, 30 min before the stimulus, inhibited responses to carrageenin, bradykinin, and TNFalpha, but not responses to IL-1beta, IL-8 and PGE2. 3. IL-4, 2 h before the injection of IL-1beta, did not affect the response to IL-1beta, whereas IL-4, 12 or 12+2 h before the IL-1beta, inhibited the hyperalgesia (-30%, -74%, respectively). 4. In murine peritoneal macrophages, murine IL-4 for 2 h before stimulation with LPS, inhibited (-40%) the production of IL-1beta but not PGE2. Murine IL-4 (for 16 h before stimulation with LPS) inhibited LPS-stimulated PGE2 but not IL-1beta. 5. Anti-murine IL-4 antibodies potentiated responses to carrageenin, bradykinin and TNFalpha, but not IL-1beta and IL-8, as well as responses to bradykinin in athymic rats but not in rats depleted of mast cells with compound 40/80. 6. These data suggest that IL-4 released by mast cells limits inflammatory hyperalgesia. During the early phase of the inflammatory response the mode of action of the IL-4 appears to be inhibition of the production TNFalpha, IL-1beta and IL-8. In the later phase of the response, in addition to inhibiting the production of pro-inflammatory cytokines, IL-4 also may inhibit the release of PGs.
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PMID:Cytokine-mediated inflammatory hyperalgesia limited by interleukin-4. 1005 Nov 19

1. The objective of the present paper was to evaluate the relevance of neuronal balance of cyclic AMP and cyclic GMP concentration for functional regulation of nociceptor sensitivity during inflammation. 2. Injection of PGE2 (10-100 ng paw-1) evoked a dose-dependent hyperalgesic effect which was mediated via a cyclic AMP-activated protein kinase (PKA) inasmuch as hyperalgesia was blocked by the PKA inhibitor H89. 3. The PDE4 inhibitor rolipram and RP73401, but not PDE3 and PDE5 inhibitors potentiated the hyperalgesic effects of PGE2. The hyperalgesic effect of dopamine was also enhanced by rolipram. Moreover, rolipram significantly potentiated hyperalgesia induced by carrageenan, bradykinin, TNF alpha, IL-1 beta, IL-6 and IL-8. This suggests that neuronal cyclic AMP mediates the prostanoid and sympathetic components of mechanical hyperalgesia. Moreover, in the neuron cyclic AMP is mainly metabolized by PDE4. 4. To examine the role of the NO/cyclic GMP pathway in modulating mechanical hyperalgesia, we tested the effects of the soluble guanylate cyclase inhibitor, ODQ. This substance counteracts the inhibitory effects of the NO donor, SNAP, on the hyperalgesia induced by PGE2. 5. The ODQ potentiated hyperalgesia induced by carrageenan, bradykinin, TNF alpha, IL-1 beta, IL-6 and IL-8. In contrast, ODQ had no significant effect on the hyperalgesia induced by PGE2 and dopamine. This indicates that the hyperalgesic cytokines may activate soluble guanylate cyclase, which down-regulate the ability of these substances to cause hyperalgesia. This event appears not to be mediated by prostaglandin or dopamine. 6. In conclusion, the results presented in this paper confirm an association between (i) hyperalgesia and elevated levels of cyclic AMP as well as (ii) antinociception and elevated levels of cyclic GMP. The intracellular levels of cyclic AMP that enhance hyperalgesia are controlled by the PDE4 isoform and appear to result in activation of protein kinase A whereas the intracellular levels of cyclic GMP results from activation of a soluble guanylate cyclase.
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PMID:Pharmacological modulation of secondary mediator systems--cyclic AMP and cyclic GMP--on inflammatory hyperalgesia. 1040 57

Upper respiratory tract infections are one of the most common infectious diseases in man and are characterized by relatively mild symptoms. However, complications of bacterial super-infection or asthma exacerbations are not seldomly seen. Most upper respiratory tract infections are caused by rhinoviruses. The rhinovirus is a non-enveloped 30 nm RNA-virus with over 100 serotypes that belongs to the Picornaviridae family and only replicates in primates. It is characterized by a single positive stranded genome acting not only as a template for RNA synthesis, but also encoding for a single polypeptide necessary for viral replication. The viral capsid has an icosahedral symmetry and demonstrates deep canyons, with a receptor-binding domain. Rhinoviruses are transmitted mainly via direct- or indirect contact with infected secretions and invade their host by binding to the ICAM-1 receptor on the nasal epithelium. Typical for rhinovirus upper respiratory tract infections are isolated scattered foci of infected epithelium, not showing any striking damage or cytopathic alterations, between large areas of normal epithelium. Today there is still little detailed knowledge on the pathophysiology of common cold, especially on the aspect of cellular migration and defense. A better understanding in mechanisms underlying this cellular response would not only have therapeutical consequences, but may also explain the relationship between viral infectious rhinitis and asthma or atopy. During a rhinovirus infection, a selective neutrophil and monocyte recruitment is observed. In vitro and in vivo data have demonstrated a time-limited, rhinovirus-induced increase in bradykinin, cytokine, chemokine and sICAM-1 concentrations. Epithelial derived proinflammatory cytokines initiate an adhesion cascade and activate T lymphocytes that create a TH1-type cytokine environment within the infected tissue, necessary to eradicate the virus infection. The selective recruitment of neutrophils seems linked to increased concentrations of the chemokine IL-8 and common cold symptoms. It is doubtful that the cytokine-regulated-production of specific neutralising immunoglobulins is necessary for recovery from viral illnesses and presumably only contributes to a late and temporary protection against rhinovirus reinfection. These observations confirm the crucial role that cytokines and mediators play in the pathogenesis of a rhinovirus infection by mediating chemotaxis, transmigration and activation of inflammatory- and immunocompetent cells.
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PMID:An update on the pathophysiology of rhinovirus upper respiratory tract infections. 1056 86

Activation of the kallikrein-kinin system in lung injury has long been recognized. However, the effects of bradykinin (BK) on human lung fibroblasts (HLF) remain to be elucidated. We determined whether BK stimulates HLF to release chemotactic activity for neutrophils and monocytes (NCA and MCA, respectively). We evaluated HLF supernatant fluids for chemotactic activity through a blind-well chamber technique. HLF released NCA and MCA in a dose- and time-dependent manner in response to BK. The release of chemotactic activity was inhibited by lipoxygenase inhibitors and cycloheximide. Molecular sieve column chromatography revealed that both NCA and MCA had multiple chemotactic peaks. NCA was inhibited by a leukotriene (LT) B(4) receptor antagonist and by antibodies to interleukin (IL)-8 and granulocyte colony-stimulating factor (G-CSF). MCA was attenuated by the LTB(4) receptor antagonist and by antibodies to monocyte chemoattractant protein-1 (MCP-1), granulocyte-macrophage colony-stimulating factor (GM-CSF), and transforming growth factor (TGF)-beta. Both the LTB(4) receptor antagonist and these antibodies inhibited chemotactic activity of the molecular weights corresponding to MCP-1, GM-CSF, and TGF-beta, separated by column chromatography. The concentrations of IL-8, G-CSF, MCP-1, GM-CSF, and TGF-beta in supernatant fluids increased significantly in a time-dependent manner in response to BK. The receptors responsible for the release of NCA, MCA, and individual chemokines included both BKB(1) and BKB(2) receptors. These data suggest that BK may stimulate lung fibroblasts to release inflammatory cytokines, which may modulate lung inflammation.
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PMID:Bradykinin stimulates lung fibroblasts to release neutrophil and monocyte chemotactic activity. 1061 68

Inflammatory signs, such as heat, redness, swelling and pain, have been described from the Greek era. In these phenomena various endogenous active substances, i.e., inflammatory mediators, could cause and manifest vascular dilatation, a vascular permeability increase and sensitization of pain receptors, etc. In order to evaluate the roles of inflammatory mediators, we have studied the time courses of inflammatory reaction along with detection of various active substances directly or indirectly in the experimental animal model of pleurisy, such as rat carrageenin-induced, and zymosan-induced pleurisy. These pleurisies showed almost similar time courses of pleural exudate accumulation and neutrophil migration. However, mediators detected in the exudates of such pleurisies were different; in carrageenin-induced pleurisy bradykinin and prostacyclin (PGI2) caused exudate formation, while zymosan-induced pleurisy showed early degradation of mast cells and activation of complements, followed by an increase in platelet activating factor (PAF). In both pleurisies TNF alpha, IL-1, IL-6 and CINC (cytokine-induced neutrophil chemoattractant) appeared similarly in the exudates to cause chemoattractant for neutrophils. TNF alpha and IL-1 could stimulate to produce IL-6 and IL-8. While prostaglandins may regulate cytokine production via a cellular cAMP-dependent mechanism. Thus one should consider the time for application of anti-inflammatory drugs, such as cyclooxygenase inhibitor, indomethacin, since it causes increases in TNF alpha and IL-1 production by reducing PGI2 and prostaglandin E2 (PGE2) levels. In conclusion, inflammatory reaction has its own automatic regulation mechanism through complex cross talks between inflammatory mediators.
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PMID:[Evaluation of time course and inter-relationship of inflammatory mediators in experimental inflammatory reaction]. 1082 9

We have recently shown that endogenous prostanoids are critical in bradykinin-stimulated interleukin (IL)-8 release from human airway smooth muscle (ASM) cells. In this study, we tested the ability of transforming growth factor (TGF)-beta1 to stimulate IL-8 release, cyclooxygenase (COX)-2 expression and PGE(2) generation in cultured human ASM cells and explored the role of COX products and COX-2 induction on IL-8 release. TGF-beta1 stimulated IL-8 release, COX-2 induction, and PGE(2) generation in a concentration- and time-dependent manner. Maximal IL-8 release was achieved with 10 ng/ml of TGF-beta1 after 16 h of incubation, which was inhibited by the transcription inhibitor actinomycin D and the corticosteroid dexamethasone but was not affected by the nonselective COX inhibitor indomethacin and the selective COX-2 inhibitor NS-398 despite their inhibition on TGF-beta1-induced PGE(2) release. These results show for the first time that TGF-beta1 stimulates IL-8 release, COX-2 induction, and PGE(2) generation in human ASM cells and that PGE(2) generation is not critical for TGF-beta1-induced IL-8 release. These findings suggest that TGF-beta1 may play an important role in the pathophysiology of asthma.
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PMID:TGF-beta1 stimulates IL-8 release, COX-2 expression, and PGE(2) release in human airway smooth muscle cells. 1089 19

1. The effect of IL-1ra on response to intraplantar (i.pl.) injection of LPS, carrageenin, bradykinin, TNFalpha, IL-1beta, IL-8, PGE(2) and dopamine was investigated in a model of mechanical hyperalgesia in rats. 2. IL-1ra inhibited hyperalgesic response to LPS, carrageenin, bradykinin, TNFalpha, and IL-1beta, but not responses to IL-8, PGE(2) and dopamine. 3. A sheep anti-rat IL-1ra serum potentiated response to LPS, carrageenin, bradykinin, TNFalpha and IL-1beta but not IL-8. 4. Carrageenin and LPS stimulated and production of immunoreactive TNFalpha, IL-1beta and IL-1ra in the skin of injected paws. 5. The inhibition by IL-1ra of the hyperalgesic response to carrageenin was not affected by antibodies neutralizing IL-4 and IL-10. 6. In mice, IL-1ra inhibited the nociceptive response to i.p. injection of acetic acid. 7. These data suggest that IL-1ra, released at sites of inflammation, limits inflammatory hyperalgesia. This effect is independent of (IL-1ra-induced) IL-4 and IL-10 and appears to be the result of antagonism by IL-1ra of IL-1beta-stimulated eicosanoid production.
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PMID:Cytokine-mediated inflammatory hyperalgesia limited by interleukin-1 receptor antagonist. 1090 85

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