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Target Concepts:
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Query: UNIPROT:P47989 (
xanthine oxidase
)
8,633
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Traumatology deals with two different types of shock - the early hypovolemic-traumatic, and the late, so called septic shock, which is often associated with multi-organ failure. Both types of shock are triggered by several mediator systems of humoral and cellular origin, with numerous interactions between each other. In hypovolemic-traumatic shock central events are a perfusion deficit (ischemia with reperfusion injury via the xanthine-
xanthine oxidase
system) and activation of the humoral axis - of coagulation, of fibrinolysis, of the complement and kallikrein-kinin system by injured tissue. Coagulation and complement are responsible for the activation of platelets and granulocytes respectively. These cells further interact with each other e.g. via platelet activation factor, which finally causes tissue damage. Granulocytes play a central role because of their ability to release oxygen radicals and neutral proteinases, which can be monitored (elastase) and probably used to predict organ failure. The gut area is less resistant to the events of shock and therefore is a "locus minoris resistentiae" for further development of endotoxemia,
bacteremia
, septic shock and multi-organ failure without a typical septic focus. By this "septic challenge" further mediator systems get involved, especially those of macrophages like interleukin-1 or cachectin. Similar to the activation marker of PMN-elastase, we could demonstrate that it was possible to use neopterin for monitoring macrophage activation in sepsis and organ failure. By the action of these cellular elements in microcirculation at the endothelial and interstitial level tissue damage occurs, which finally leads to individual and multi-organ failure.
...
PMID:[Current findings in the pathogenesis of the shock process in traumatology]. 328 34
We tested the hypothesis that reducing the hepatic O2 supply by 30 min of constant-flow hypoxia (PO2, approximately 45 Torr) following gram-negative
bacteremia
downregulates tumor necrosis factor-alpha (TNF-alpha) in buffer-perfused rat lives (total n = 44). Eight groups were studied after intraportal 10(9) viable E. coli serotype 055:B5 (EC) or 0.9% NaCl (NS) at t = 0:1) normoxic EC; 2) normoxic NS controls; 3) EC+hypoxia (H)-reoxygenation (R) in which H began 30 min after EC followed by 120 min of R; and 4) NS+H/R. To assess the role of cyclooxygenase vs.
xanthine oxidase
activation, the effects of 10(-5) M indomethacin (Indo) in 5) Indo+EC+H/R and 6) Indo+NS+H/R were compared with allopurinol (Allo) in 7) Allo+EC+H/R and 8) Allo+NS+H/R groups. Bacterial clearance, bioactive and antigenic TNF-alpha, and hepatic O2 uptake and performance were serially assessed, as was prostaglandin (PG) E2 at baseline and peak hypoxia in EC-challenged groups. Intrahepatic bacterial killing and TNF-alpha mRNA were determined at t = 180 min. Bioactive venous TNF-alpha did not increase in normoxic NS controls (6 +/- 3 U/ml at t = 180 min; mean +/- SE), whereas levels rose in NS4H/R by 180 min (111 +/- 34 U/ml; P < 0.01) without increases in TNF-alpha mRNA. In contrast, EC-induced increases in TNF-alpha transcripts during normoxia were attenuated in EC+H/R, as were protein levels (57 +/- 20 U/ml; P < 0.05), despite similar bacterial clearance. Neither Indo-mediated reductions in PGE2 nor allopurinol increased TNF-alpha after EC+H/R.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Downregulation of E. coli-induced TNF-alpha expression in perfused liver by hypoxia-reoxygenation. 786 28
Transactivation of the DNA-binding proteins nuclear factor-kappa B (NF-kappa B) and activator protein (AP)-1 by de novo oxyradical generation is a stereotypic redox-sensitive process during hypoxic stress of the liver. Systemic trauma is associated with splanchnic hypoxia-reoxygenation (H/R) followed by intraportal gram-negative
bacteremia
, which collectively have been implicated in posttraumatic liver dysfunction and multiple organ damage. We hypothesized that hypoxic stress of the liver before stimulation by Escherichia coli serotype O55:B5 (EC) amplifies oxyradical-mediated transactivation of NF-kappa B and AP-1 as well as cytokine production compared with noninfectious H/R or gram-negative sepsis without prior hypoxia. Livers from Sprague-Dawley rats underwent perfusion for 180 min with or without 0.5 h of hypoxia (perfusate PO(2), 40 +/- 5 mmHg) followed by reoxygenation and infection with 10(9) EC or 0.9% NaCl infusion. In H/R + EC livers, nuclear translocation of NF-kappa B and AP-1 was unexpectedly reduced in gel shift assays vs. normoxic EC controls, as were perfusate TNF-alpha and IL-1 beta levels. Preceding hypoxic stress paradoxically increased postbacteremic reduced-to-oxidized glutathione ratios plus nuclear localization of I kappa B alpha and phospho-I kappa B alpha, but not JunB/FosB profiles. Notably,
xanthine oxidase
inhibition increased transactivation as well as cytokine production in H/R + EC livers. Thus brief hypoxic stress of the liver before intraportal gram-negative
bacteremia
potently suppresses activation of canonical redox-sensitive transcription factors and production of inflammatory cytokines by mechanisms including
xanthine oxidase
-induced oxyradicals functioning in an anti-inflammatory signaling role. These results suggest a novel multifunctionality of oxyradicals in decoupling hepatic transcriptional activity and cytokine biosynthesis early in the posttraumatic milieu.
...
PMID:Hypoxic suppression of E. coli-induced NF-kappa B and AP-1 transactivation by oxyradical signaling. 1505 91
