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)

Among other mediators, platelet-derived serotonin (5-HT) may contribute to thromboembolic complications of atherosclerosis. We determined whether long-term oral treatment with the 5-HT2 antagonist naftidrofuryl (NAF, 50 mg/kg daily for 12 weeks) alters platelet function in cholesterol-fed (1%) rabbits. Hypercholesterolemia resulted in marked platelet hyperreactivity to collagen and ADP. This included increased aggregation, ATP secretion, and thromboxane formation; e.g., collagen-induced (1.2 micrograms/ml) platelet aggregation was stimulated to 210 +/- 10 mm/30 s in cholesterol-fed rabbits as compared with 108 +/- 9 mm/30 s in rabbits fed a standard diet (p < 0.05). Inhibition of ADP-stimulated platelet activation by the prostacyclin mimetic iloprost was significantly reduced. NAF did not reduce plasma cholesterol in hypercholesterolemia, but prevented enhanced platelet aggregation, thromboxane formation, and ATP secretion. NAF treatment significantly reduced collagen-induced (1.2 micrograms/ml) aggregation to 81 +/- 20 mm/30 s in these animals (p < 0.05). NAF also inhibited functional desensitization of platelets to iloprost, but did not alter the impaired binding of [3H]iloprost to platelet membranes in hypercholesterolemic animals. NAF also did not change any of these parameters in normocholesterolemic rabbits. These data suggest beneficial effects of NAF on platelet hyperreactivity in experimental hypercholesterolemia which may also be relevant for its clinical use.
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PMID:Oral naftidrofuryl prevents platelet hyperreactivity ex vivo and inhibits functional desensitization to prostacyclin in hypercholesterolemic rabbits. 767 70

It has been shown that histamine induces early changes on endothelial cells (EC), such as a transient expression of P-selectin and secretion and/or surface expression of early mediators (eg, prostacyclin [PG1(2)], platelet-activating factor [PAF], and leukotriene B4 [LTB4]). However, delayed effects of histamine on EC and particularly on cytokine production are undefined. In this study, the effect of histamine on interleukin (IL)-8 production by EC was evaluated using an enzyme-linked immunosorbent assay (ELISA) method and mRNA expression. The results showed that histamine increased the secretion and the mRNA expression of IL-8 by EC. Histamine-induced IL-8 production was (1) dose-dependent (at a dose > or = 10(-6) mol/L), (2) potentialized by costimulation with tumor necrosis factor (TNF)-alpha, (3) inhibited by H1 or H2 histamine receptor antagonists, and (4) significantly increased 4 hours after the initial stimulation. These data suggest that histamine may be involved in the control of the late inflammatory reaction associated to allergic disorders through IL-8 secretion by EC.
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PMID:Histamine induces interleukin-8 secretion by endothelial cells. 791 40

We have previously shown that although DDAVP (1-deamino-8-D-arginine vasopressin), a synthetic analogue of the natural hormone arginine vasopressin, does not directly promote release of vWf from human umbilical vein endothelial cells (ECs), enhanced release does occur when ECs were exposed to either monocytes or to supernatants recovered from DDAVP-treated monocytes. In the present study, we have found that exposure of monocytes to DDAVP did not increase secretion of interleukins (IL)-1 beta, IL-6, IL-8, tumor necrosis factor (TNF-alpha), growth factors G-CSF (granulocyte-), GM-CSF (granulocyte, monocyte-colony stimulating factor), prostaglandins (PG) E2, PGF2 alpha, or PGI2 or purine nucleotides such as ATP and ADP. However, increased levels of platelet-activating factor (PAF) were secreted by DDAVP-treated monocytes in a time- and dose-dependent manner that positively correlated with the enhancement in vWf release from ECs. Moreover, this effect could also be elicited when lipid extracts of these supernatants or purified PAF were added directly to ECs. This response could be inhibited with (+/-)-trans-2,5-Bis(3,4,5-trimethoxyphenyl)-1,3-dioxolane, a specific PAF receptor antagonist, when the ECs were exposed to supernatants from DDAVP-treated monocytes or to pure PAF. The present data indicate that enhanced secretion of PAF from monocytes is one mechanism whereby DDAVP can provoke release of vWf from ECs.
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PMID:Platelet-activating factor secreted by DDAVP-treated monocytes mediates von Willebrand factor release from endothelial cells. 843 98

The objective of this study was to characterize interleukin-1, -6, and -8 (IL-1-, IL-6-, and IL-8)-induced prostacyclin (PGI2 as 6-keto PGF1 alpha) and prostaglandin E2 (PGE2) production in primary cultures of human myometrial cells. Prostaglandins (PGs) released into the culture media were quantitated by specific radioimmunoassays. IL-1, but not IL-6 or IL-8, caused a dose- and time-dependent increase in the production of both PGI2 and PGE2. Half-maximally stimulating doses (EC50) of IL-1 were about 0.1 ng/ml, and maximal responses were observed at 1-10 ng/ml, amounting to 15- to 23-fold increases over unstimulated controls. The action of IL-1 was greatly potentiated by the protein kinase C-activating phorbol ester, TPA, and inhibited by actinomycin D and cycloheximide. IL-1-induced PG production was also suppressed by dexamethasone, by the natural IL-1 receptor antagonist (IL-1ra), and by transforming growth factor1 beta (TGF1 beta). It is concluded that IL-1 is a potent agonist of PG synthesis in human myometrial cells, acting by a mechanism dependent on the synthesis of new proteins, presumably key enzymes (phospholipase A2 and/or cyclo-oxygenase-2). This study has added further support to the notion that the myometrium serves as a target for the inflammatory cytokine, IL-1, and thereby may be affected directly, thus promoting preterm labor associated with intrauterine infection.
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PMID:Effect of cytokines on prostaglandin E2 and prostacyclin production in primary cultures of human myometrial cells. 879 88

1. Experiments were performed to examine the effect of inflammatory cytokines, interleukin-2 (IL-2), IL-6 and IL-8, on the contractility of rat aorta. 2. Pretreatment of the endothelium-denuded aortic ring with IL-6 for 3 h caused a significant inhibition of its contraction (58.9 +/- 7.8%, n = 9, P < 0.01) when induced by 10(-6) mol/L phenylephrine. 3. On the other hand, IL-2 and IL-8 failed to show significant effects on the contractility of the aorta. 4. This inhibitory effect of IL-6 on phenylephrine-induced contraction showed dose-dependency, and completely disappeared in the presence of 10(-5) mol/L indomethacin. 5. In cultured rat vascular smooth muscle cells (VSMC), the release of 6-keto-prostaglandin F1alpha into the extracellular medium was significantly increased by exposure to IL-6, but not by exposure to IL-2 or IL-8. 6. IL-2, IL-6 and IL-8 showed no effects on the release of nitrite, a stable metabolite of nitric oxide (NO), from VSMC. 7. These results indicate that IL-6, not IL-2 or IL-8, is a potent inhibitor of the alpha-adrenergic-stimulated contraction of vascular smooth muscle and its action is mediated by the increased synthesis of prostacyclin rather than NO.
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PMID:Inflammatory cytokines and rat vascular tone. 907 41

While it is clear that the clinical expression of IgE-mediated diseases depends upon the actions of multiple mediators, histamine, the earliest recognized mediator of allergy, remains a prominent contributor. Histamine released from mast cells binds to specific receptors (H1, H2, H3) to produce its clinical effects. The cardinal features of asthma include smooth muscle spasm, mucosal edema, inflammation and mucus secretion. It has been demonstrated that two of these features, bronchospasm and mucosal edema, can be caused by H1-receptor stimulation, while H2- and possibly H1-activation are probably minor causes of mucus secretion. Histamine interacts directly with the endothelial cells (EC) and induces permeability, a transient expression of P-selectin and the secretion of lipid mediators (e.g. PGI2, PAF and LTB4). Moreover, histamine induces a significant increase of IL-6 and IL-8 secretion by EC. Since IL-8 exerts a chemotactic activity for neutrophils, eosinophils and basophils, and IL-6 is involved in endothelium permeability, the secretion of cytokines may be involved in the late phase reaction. Some antihistamines (i.e., levocabastine, terfenadine, loratadine, azelastine and oxatomide) can reduce ICAM-1 expression. The participation of histamine in the allergic inflammation, including asthma, must be re-examined, since the effects of histamine are more widespread.
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PMID:[Histamine in the pathogenesis of asthma]. 961 6

The results of the present study, summarized in Table 2, demonstrate that different species and strains of rodents (rats and mice) and birds (chickens) exhibit rather specific fever response. Systemic administration of LPS caused monophasic elevation in Tb of chickens, biphasic changes in Tb of rats (initial drop followed by an increase in Tb), whereas mice failed to develop hyperthermia and responded by a decreased Tb. The LPS-induced alterations in hypothalamic prostanoid synthesis were also rather species-specific and differ markedly even between the two strains of mice. We failed to find a common direct correlation between LPS-induced changes in Tb and hypothalamic prostanoid production in rodents (rats and mice). This observation is supported by our recent study on age-related changes in fever response in rats, where we found that hypothalami of LPS-treated old and young adult rats produced similar amounts of PGE2 and PGI2, in spite of more pronounced and prolonged hypothermia, and a delayed elevation in Tb of old rats, as compared with young (Fraifeld et al., 1995b). Moreover, the hypothalamus of febrile chickens did not display any detectable activation of PGE2 production, suggesting that PGE2 is not a common central mediator of fever in homeotherms (Fraifeld et al., 1995a). Apparently, the actual body temperature not always reflects the functional state of central thermostat, and increased PGE2 production in hypothalamus would not directly, at least in rodents, lead to body temperature elevation. Furthermore, peripheral effects, including PG-mediated ones, of pyrogens can interfere and even overcome their centrally-mediated effects (Morimoto et al., 1991; Burysek et al., 1993). Previously, we have shown that no additional elevation in hypothalamic PGE2 production occurs in response to doses of LPS over 10 micrograms in rats and 25 micrograms in mice, while the increased doses led to further changes in Tb response (Kaplanski et al., 1993). Morimoto et al. (1991) have considered that PGE2 acts centrally to cause fever and peripherally to cause hypothermia, and, hence, these opposing actions, both being induced by LPS, may act together to determine the final thermoregulatory response. Other possibilities could be related to counterbalance of endogenous antipyretics (Kluger, 1991; Kozak et al., 1995), that may occur not only at the level of thermoregulatory center but also outside the CNS (Klir et al., 1995), and to the existence of PG-independent mechanisms of LPS fever. The latter have been shown for IL-8 (Rothwell et al., 1990; Zampronio et al., 1994) and MIP-1 (Davatelis et al., 1989; Minano et al., 1990; Hayashi et al., 1995; Lopez-Valpuesta and Myers, 1995), which are, apparently, mediated via CRF (Strijbos et al., 1992; Zampronio et al., 1994), and INF-alpha, mediated via the opioid receptor mechanisms (Hori et al., 1991, 1992). However, it has been shown recently that in different species the same pyrogenic cytokines (IL-8) may induced fever via different, PG-independent (in rats; Zampronio et al., 1994) or PG-dependent (in rabbits; Zampronio et al., 1995) mechanisms. It should be noted that fever response is not always accompanied by an elevation in Tb. The final effect of pyrogens on body temperature depends upon the balance between heat production and heat loss, which in turn is highly dependent upon body size and ambient temperature, especially in small animals. Perhaps, the hypothermic response observed in our mice and rats at 22 degrees C may be in part attributed to ambient temperature, which was below a thermoneutral zone. The reduced febrile response is considered, at least in part, to contribute to an increased mortality and prolonged recovery from infections (Kluger, 1986). From this point, it is difficult to suggest whether the hypothermia observed in our mice and rats could be of somewhat adaptive significance. It has been shown that at the ambient temperature of 30 degrees C, Swiss Webster mice can re
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PMID:Brain eicosanoids and LPS fever: species and age differences. 963 34

The damaging effects of inflammation after prolonged myocardial ischemia are typically manifest during the period of reperfusion. The imbalance between free radical generation and availability of natural free radical scavengers during postischemic reperfusion set the stage for free radical injury. Calcium overload may convert reversible ischemic damage to fatal myocyte contracture. Complement activation and neutrophil activation, adhesion, and diapedesis are central components of the damaging inflammatory response. Cytokines such as tumor necrosis factor and IL1 simulate IL8 synthesis which is also a potent chemoattractant for neutrophils. The endothelial contribution to ischemic-reperfusion injury results from an imbalance between the production of naturally occurring vasodilators, such as prostacycline and nitric oxide, and vasoconstrictor products, such as endothelin, thromboxane A2, and angiotensin 2. Knowledge of these basic mechanisms has stimulated the formulation of preservation solutions and strategies to ameliorate the inflammatory response during reperfusion.
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PMID:Control of the inflammatory response in extended myocardial preservation of the donor heart. 1058 15

Vascular smooth muscle is now recognized as an important site of mediator generation under inflammatory conditions. Indeed, the release of leukocyte activators, such as granulocyte-macrophage colony-stimulating factor (GM-CSF) and interleukin (IL)-8, by human arterial smooth muscle cells has recently been demonstrated. However, the potential for venous cells to release GM-CSF has not been addressed. We have shown that human vascular smooth muscle cells express the "inflammatory" form of cyclooxygenase (COX), cyclooxygenase-2 (COX-2), when stimulated with cytokines. In some nonvascular cell types, the COX activity has been shown to regulate the release of GM-CSF and IL-8, although the nature of the isoform responsible was not addressed. We show that human venous smooth muscle cells, like their arterial counterparts, release GM-CSF after stimulation with IL-1beta. Similarly, both cell types released IL-8. Under the same conditions, we found that COX-2 activity suppressed GM-CSF, but not IL-8, release by both types of human vascular cells. Moreover, the prostacyclin mimetic, cicaprost, and the cAMP analogue, dibutyryl cAMP, inhibited GM-CSF release from these cells. These observations suggest that COX-2 activity suppresses GM-CSF release via a cAMP-dependent pathway in human vascular cells and illustrates a novel mechanism by which this enzyme can modulate immune and inflammatory events.
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PMID:Cyclooxygenase-2 regulates granulocyte-macrophage colony-stimulating factor, but not interleukin-8, production by human vascular cells: role of cAMP. 1071 90

The vascular endothelium influences not only the three classically interacting components of hemostasis: the vessel, the blood platelets and the clotting and fibrinolytic systems of plasma, but also the natural sequelae: inflammation and tissue repair. Two principal modes of endothelial behaviour may be differentiated, best defined as an anti- and a prothrombotic state. Under physiological conditions endothelium mediates vascular dilatation (formation of NO, PGI2, adenosine, hyperpolarizing factor), prevents platelet adhesion and activation (production of adenosine, NO and PGI2, removal of ADP), blocks thrombin formation (tissue factor pathway inhibitor, activation of protein C via thrombomodulin, activation of antithrombin III) and mitigates fibrin deposition (t- and scuplasminogen activator production). Adhesion and transmigration of inflammatory leukocytes are attenuated, e.g. by NO and IL-10, and oxygen radicals are efficiently scavenged (urate, NO, glutathione, SOD). When the endothelium is physically disrupted or functionally perturbed by postischemic reperfusion, acute and chronic inflammation, atherosclerosis, diabetes and chronic arterial hypertension, then completely opposing actions pertain. This prothrombotic, proinflammatory state is characterised by vaso-constriction, platelet and leukocyte activation and adhesion (externalization, expression and upregulation of von Willebrand factor, platelet activating factor, P-selectin, ICAM-1, IL-8, MCP-1, TNF alpha, etc.), promotion of thrombin formation, coagulation and fibrin deposition at the vascular wall (expression of tissue factor, PAI-1, phosphatidyl serine, etc.) and, in platelet-leukocyte coaggregates, additional inflammatory interactions via attachment of platelet CD40-ligand to endothelial, monocyte and B-cell CD40. Since thrombin formation and inflammatory stimulation set the stage for later tissue repair, complete abolition of such endothelial responses cannot be the goal of clinical interventions aimed at limiting procoagulatory, prothrombotic actions of a dysfunctional vascular endothelium.
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PMID:Endothelial function and hemostasis. 1079 71

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