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: UMLS:C0036690 (sepsis)
59,461 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The cellular signaling events leading to the systemic inflammatory response syndrome and sepsis in monocytes/macrophages activated by lipopolysaccharide (LPS) are well understood. LPS is a glycolipid component of Gram-negative bacterial cell wall. It exerts its effect through the lipid A moiety. LPS binds to monocytes/macrophages via a membrane-bound receptor, CD14, an interaction which is optimized in the presence of plasma factors, LPS-binding protein, and septin. Although LPS is known to bind to other receptors, the roles of these receptors in transmembrane signaling and activation of monocytes/macrophages are not as well understood as is that of the CD14 receptor. Intracellular events in response to LPS stimulation are mediated by phospholipase (PL) C, protein kinases, PLA2, and PLD. Activation of PLC by LPS results in the release of diacylglycerol and inositol 1,4,5-trisphosphate. The former mediates the stimulation of protein kinase C, and the latter induces an increase in intracellular calcium concentration. LPS stimulation of monocytes/macrophages also results in the phosphorylation and activation of several protein kinases, including protein tyrosine kinases which mediate cytokine production, and mitogen-activated protein kinase which activates cytosolic PLA2 to release arachidonate. LPS also plays a role in cellular proliferation and differentiation. Upregulation of the secretory form of PLA2 has also been documented in response to LPS. PLD is stimulated by LPS to release phosphatidic acid (PA). PA can activate the respiratory burst by increasing diacylglycerol production and by modulating the effects of guanine nucleotide-binding proteins. Therapeutic strategies to decrease the clinical effects of sepsis would logically include agents which block at initial receptor-ligand interaction, as well as those which attenuate the intracellular events that follow LPS stimulation. Early in vivo studies are promising, but clearly much work remains to be done.
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PMID:Signaling events in monocytes and macrophages. 758 75

Ninety minutes after i.v. injection of Escherichia coli lipopolysaccharide (LPS) (1 mg/kg) into rats, phorbol 12-myristate 13-acetate (PMA)-stimulated superoxide anion (O2-) secretion was enhanced in suspensions of in vivo LPS-treated alveolar macrophages (AM phi) when compared with saline (SAL)-treated AM phi. The purpose of this investigation was to dissect the in vitro mechanism of PMA-stimulated O2- generation in both LPS and SAL-treated rat AM phi, with a panel of inhibitors of protein kinase C (PKC), protein serine-threonine phosphatase(s) (PSP), protein tyrosine kinase(s) (PTK) and phosphatase(s) (PTP), phospholipase A2 (PLA2), cyclooxygenase (CO) and 5-lipoxygenase (5-LO). The following agents blocked PMA-stimulated O2- generation in both LPS- and SAL-treated AM phi (expressed as percentage of control): 1) PKC inhibitors: staurosporine: 100 nM, 7.0% (LPS) and 5.6% (SAL); sphingosine: 10 microM, 21% (LPS) and 10.5% (SAL); 2) PTK inhibitor: genistein: 100 microM, 44% (LPS) and 31% (SAL); 3) PTP inhibitors: phenylarsine oxide, 10 microM, 12.1% (LPS) and 18% (SAL); diamide, 1000 microM, 10.1% (LPS) and 10.5% (SAL); and 4) PLA2 inhibitors: manoalide: 1 microM, 29.3% (LPS) and 5.2% (SAL); scalaradial: 1 microM, 7.7% (LPS) and 7.1% (SAL); and WAY 125,984: 10 microM, 17.1% (LPS) and 14.5% (SAL). In addition, it was observed that exogenously added arachidonic acid (AA)-stimulated O2- generation in a time- and dose-dependent manner in both LPS and SAL-treated AM phi. The following inhibitors enhanced or did not affect PMA-stimulated O2- generation in LPS- and SAL-treated AM phi (expressed as percentage of of control): 1) PSP inhibitors: okadaic acid: 0.5 microM, 117% (LPS) and 153% (SAL); calyculin A: 1 microM, 112% (LPS) and 101% (SAL); 2) CO and 5-LO inhibitors: indomethacin: 10 microM, 107% (LPS) and 90% (SAL); WY 50, 295: 1 microM, 99% (LPS) and 103% (SAL); and 3) the PTP inhibitor orthovanadate upon prolonged preincubation. In both in vivo LPS- or SAL-primed AM phi, PMA-stimulated O2- generation appears to be modulated by PKC, PLA2, AA, PTK, PTP and PSP. No modulatory role was evident for either CO or 5-LO metabolites. These findings might bear on the design of therapeutic approaches for the modulation of O2- release by AM phi in the early stages of sepsis and adult respiratory distress syndrome.
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PMID:Modulation of superoxide generation in in vivo lipopolysaccharide-primed rat alveolar macrophages by arachidonic acid and inhibitors of protein kinase C, phospholipase A2, protein serine-threonine phosphatase(s), protein tyrosine kinase(s) and phosphatase(s). 761 27

Platelet activating factor (PAF) is an important mediator of pulmonary microvascular endothelial cell (PMVEC) injury in sepsis. Membrane receptors for PAF have been identified on PMVECs and mediate its actions at least in part by protein kinase C activation. Since rolipram, a family IV cyclic AMP phosphodiesterase inhibitor, and isoproterenol, an adenylate cyclase activator, both reverse ischemia-reperfusion-induced lung permeability, we studied the effects of these agents on PAF-induced pulmonary microvascular permeability. The isolated rat lung model was used in which lungs were ventilated and buffer perfused at constant flow while suspended from a force transducer to monitor lung weight along with arterial (P(a)) and venous (Pv) pressures. Control lungs (n = 6) were infused with PAF (40 nmole/kg) via an arterial port and the capillary permeability coefficient (Kf,c) was determined at 0, 15, and 60 min. The remaining lungs were randomized for infusion with either rolipram (n = 4, 20 mumole/kg) or isoproterenol (n = 4, 5 mumole/kg) via an arterial port 30 min after injury with PAF. In the rolipram- and isoproterenol-treated groups, the Kf,c was determined 15 and 60 min postinfusion with these agents. The control group showed significant elevation in the Kf,c and total pulmonary resistance (Rt). At 15 and 60 min, rolipram and isoproterenol reversed PAF injury as shown by the significant improvement in the Kf,c and Rt. These findings support the concept that increased cyclic AMP is an important mediator in the reversal of PAF-increased PMVEC permeability and pulmonary resistance.
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PMID:Rolipram and isoproterenol reverse platelet activating factor-induced increases in pulmonary microvascular permeability and vascular resistance. 763 Jan 21

The present work showed that cardiac sarcolemmal (SL) adenylyl cyclase (AC) and purified AC maximal activity of septic rat (cecal ligaation and puncture, CLP) were significantly increased during the early sepsis (ES, CLP 9 h) but decreased in the late sepsis (LS, CLP 18 h). Similar alterations were observed in cardiac sarcolemmal protein kinase C (PKC) activity. Sensitization and desensitization of rat SL adenylyl cyclase during ES and LS were respectively correlated with activition and inhibition of PKC. The biphasic changes of AC and PKC were independent of beta- and alpha 1-adrenergic receptor systems. The rat cardiac sarcolemmal PKC activation and AC sensitization during ES is related to M-cholinergic receptor system. The system, however, is not involved during the LS PKC inhibition and AC desensitization.
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PMID:[A study on the mechanism of the cardiac adenylyl cyclase activity alteration in septic rats]. 765 91

In the past decade it has become apparent that many diseases result from aberrations in signaling pathways. These include proliferative diseases such as cancers, atherosclerosis and psoriasis and inflammatory conditions such as sepsis, rheumatoid arthritis and tissue rejection. These findings refocused the research of the medical community to seek new modalities for disease management which essentially consist of designing drugs which intercept cell signaling. In this review, the emerging success in using tyrosine kinase blockers and other signal interceptors, such as protein kinase C blockers, Ras blockers, Ca2+ signaling inhibitors and estrogen antagonists which inhibit growth of cancer cells in vitro and in vivo, will be discussed. These signal interceptors, especially tyrosine-kinase blockers, are also able to block inflammatory responses and the proliferation of vascular smooth muscle cells and psoriatic keratinocytes. The utility of signal interceptors in analyzing signal-transduction pathways is also discussed.
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PMID:Signal-transduction therapy. A novel approach to disease management. 795 36

Activation of neutrophils by various inflammatory stimuli has been shown to play a pivotal role in septic and posttraumatic tissue injury. To further elucidate the mechanisms modulating the oxidative metabolism, we assessed superoxide production induced by N-formylmethionyl-leucyl-phenylalanine (FMLP) and phorbol myristate acetate and the expression of FMLP receptors of human neutrophils on several days during sepsis and after trauma. Neutrophils of septic patients isolated on days 0-4 after the diagnosis of sepsis showed a significant, more than twofold increase in specific binding of [3H]FMLP at 1, 120, and 240 nM. Scatchard plot analyses revealed that this increase in specific binding was due to an increase in the number of low- and high-affinity FMLP receptors with no changes in receptor affinity. On days 5-10 after the onset of sepsis the up-regulation of FMLP receptors on circulating neutrophils was followed by receptor down-regulation. Likewise, neutrophils from patients with trauma that was not complicated by sepsis bound significantly more [3H]FMLP than neutrophils from volunteers. However, the increase in FMLP receptors was less than that in septic neutrophils and returned earlier to normal. In accordance with the up-regulation of FMLP receptors, neutrophils obtained from patients with sepsis or after trauma on days 1-4 and days 1-2, respectively, produced significantly more superoxide anion upon stimulation with FMLP. However, after stimulation with phorbol myristate acetate, a receptor-independent activator of protein kinase C, these cells released less superoxide anion than controls.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Increased fMet-Leu-Phe receptor expression and altered superoxide production of neutrophil granulocytes in septic and posttraumatic patients. 813 11

The activation of protein kinase C (PKC) has been implicated in the pathogenesis of gram-negative sepsis. The effects of PKC modulation on hepatic flow and metabolism were studied using isolated liver perfusion. The liver was isolated from well-fed or overnight-fasted, male Sprague-Dawley rats weighing 250-310 g, and perfused at a constant pressure of 12 cmH2O using a recirculating system. Phorbol 12-myristate 13-acetate (PMA), a potent activator of PKC, decreased hepatic flow and oxygen consumption, and increased net lactate production. It enhanced net glucose production in fed animals. Neither 4 alpha-phorbol didecanoate, an inactive phorbol ester for PKC nor 4 alpha-phorbol, an inactive phorbol had any significant effect. The effects of PMA were augmented by increasing calcium concentration in the medium. PMA at an initial concentration of 4 x 10(-8) M stimulated net lactate and/or glucose production more than a reduction of perfusion pressure from 12 to 6 cmH2O. Staurosporine, a potent PKC inhibitor, significantly attenuated the PMA-induced alterations of hepatic flow and oxygen consumption. These results indicate that modulation of PKC exerts significant effects on hepatic flow and metabolism, which are dependent on extracellular calcium concentrations and feeding conditions, and that the effect of PMA on carbohydrate metabolism is not merely attributed to decreases in hepatic flow and oxygen consumption. It is suggested that PKC activation may be involved in the alterations of hepatic flow and metabolism during severe sepsis.
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PMID:Modulation of protein kinase C alters hemodynamics and metabolism in the isolated liver in fed and fasted rats. 815 Nov 10

It is believed that induction of cytokine expression by bacterial cell wall components plays a role in the development and course of sepsis. However, most attention has been focused on lipopolysaccharide (LPS). We studied the ability of N-acetylglucosaminyl-1,6-anhydro-N-acetylmuramyl-L-alanyl-D- isoglutamyl-m-diaminopimelyl-D-alanine (G(Anh)MTetra), a naturally occurring breakdown product of peptidoglycan that is produced by soluble lytic transglycosylase of Escherichia coli, to induce cytokine expression in human monocytes. G(Anh)MTetra was found to strongly induce interleukin (IL)-1 beta and IL-6 mRNA expression after 2 h and IL-1 beta and IL-6 protein secretion after 48 h of activation. The increase in mRNA accumulation was at least partly due to an increase in the transcription rates of the respective genes and was accompanied by a strong induction of nuclear factor-kappa B and activator protein-1 transcription factor expression. Experiments using inhibitors of protein kinase C, protein kinase A, and tyrosine kinase-dependent pathways revealed that G(Anh)MTetra-induced IL-1 beta and IL-6 mRNA expression involves activation of an H7-inhibitable pathway. By using the protein synthesis inhibitor cycloheximide, it was shown that G(Anh)MTetra-induced IL-6 mRNA expression depends on the synthesis of new protein, whereas G(Anh)MTetra-induced IL-1 beta mRNA accumulation does not. When responses to G(Anh)MTetra were compared with those to LPS and muramyldipeptide (MDP), it was found that the optimal response to G(Anh)MTetra induction was similar to that of LPS but significantly higher than the response to MDP. Furthermore, maximal G(Anh)MTetra-induced IL-1 beta and IL-6 mRNA expression could be enhanced by co-stimulation with LPS or MDP, suggesting that different receptors and/or transduction pathways were involved. These results indicate that G(Anh)MTetra induces IL-1 beta and IL-6 expression in human monocytes suggesting a possible role for G(Anh)MTetra in the release of cytokines during sepsis.
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PMID:G(Anh)MTetra, a natural bacterial cell wall breakdown product, induces interleukin-1 beta and interleukin-6 expression in human monocytes. A study of the molecular mechanisms involved in inflammatory cytokine expression. 830 82

Gram-negative sepsis/septic shock in the newborn continues to be a major medical problem, causing high mortality. Hyperglycemia followed by hypoglycemia is a common symptom in endotoxic shock. However, the mechanism of newborn glucoregulatory response to endotoxin has not been well understood. Paradoxically, monocyte-phagocytes can contribute to shock by overwhelming secretion of cytokines and also host defense by detoxifying endotoxin. Since monocyte-phagocyte function is immature in the newborn, this study was performed to evaluate Kupffer cell's role in liver glycogenolysis during endotoxic shock. Endotoxin (LPS) induced hyperglycemia in 10-day-old rats, and increased net glucose output in the isolated perfused liver. 1) Cytarabine decreased Kupffer cell function (decreased hepatic colloid carbon uptake) and blunted LPS-increased liver net glucose output in the Cytarabine + LPS-treated group (104 +/- 4 vs. 146 +/- 3 micrograms/min/g wet liver in the LPS-treated group: P < .001). 2) Indomethacin (IND) suppressed LPS-induced liver net glucose output in the LPS + IND-treated group (133 +/- 5 vs. 146 +/- 3 micrograms/min/g wet liver, P < .05). Thus, prostaglandins were suggested to contribute to glycogenolysis in the 10-day-old rat liver. 3) Phorbol 12-myristate 13-acetate (PMA) increased liver net glucose output (166 +/- 4 micrograms/min/g wet liver), and H-7, a protein kinase C inhibitor, blunted PMA-induced liver glucose output (140 +/- 2 micrograms/min/g wet liver, P < .05). H-7 enhanced LPS-induced liver net glucose output (196 +/- 9 micrograms/min/g wet liver, P < .01). Therefore, protein kinase C may not be the dominant cell signaling system for LPS stimulation in suckling rat Kupffer cells.
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PMID:Lipopolysaccharide alters suckling rat liver glycogenolysis. 832 90

The aim of this study was to investigate a possible activation of human endothelial cells in monolayer culture by a purified neutrophil-derived proteinase, i.e. elastase. Cells were isolated from human umbilical cord veins, and incubated either in primary culture or after two passages, in the presence of various concentrations of this proteinase. Although a lack of prostacyclin formation was noted, elastase induced a large release of von Willebrand factor (vWf) in a concentration-dependent manner. Thus, upon incubation with 1 microgram.ml-1 elastase for 30 min, 70 mU.ml-1 vWf were detected in the incubation medium, as compared to 5 mU.ml-1 for control. Using cells in primary culture, a fivefold higher concentration of vWf was recovered following incubation with 10 micrograms.ml-1 elastase than with 0.5 IU.ml-1 thrombin. This effect was linked to the enzymatic activity of elastase and not to its cationic charge, as deduced from the inhibition by eglin C, and the lack of effect of the phenylmethylsulphonyl fluoride (PMSF) treated proteinase. We conclude that vWf release was not due to cell activation, since cytoplasmic calcium mobilization was absent, and inhibition of protein kinase C did not modify the response. In fact, this release was the consequence of cell damage, since concentrations of vWf recovered correlated with cell lysis. These results support the hypothesis that the high level of plasma vWf in patients with sepsis or adult respiratory distress syndrome could result from damage to the endothelial cells by elastase released from activated neutrophils.
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PMID:Leucocyte elastase-mediated release of von Willebrand factor from cultured endothelial cells. 833 96


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