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Endogenous NO Production (endogenous + no_production)
Selected AbstractsNitric oxide synthase inhibition in Thoroughbred horses augments O2 extraction at rest and submaximal exercise, but not during short-term maximal exerciseEQUINE VETERINARY JOURNAL, Issue S36 2006M. MANOHAR Summary Reason for performing study: Work is required to establish the role of endogenous nitric oxide (NO) in metabolism of resting and exercising horses. Objectives: To examine the effects of NO synthase inhibition on O2 extraction and anaerobic metabolism at rest, and during submaximal and maximal exertion. Methods: Placebo and NO synthase inhibition (with N,-nitro-L-arginine methyl ester [l -NAME] administered at 20 mg/kg bwt i.v.) studies were performed in random order, 7 days apart on 7 healthy, exercise-trained Thoroughbred horses at rest and during incremental exercise leading to 120 sec of maximal exertion at 14 m/sec on a 3.5% uphill grade. Results: At rest, NO synthase inhibition significantly augmented the arterial to mixed-venous blood O2 content gradient and O2 extraction as mixed-venous blood O2 tension and saturation decreased significantly. While NO synthase inhibition did not affect arterial blood-gas tensions in exercising horses, the exercise-induced increment in haemoglobin concentration and arterial O2 content was attenuated. In the l -NAME study, during submaximal exercise, mixed-venous blood O2 tension and haemoglobin-O2 saturation decreased to a greater extent causing O2 extraction to increase significantly. During maximal exertion, arterial hypoxaemia, desaturation of haemoglobin and hypercapnia of a similar magnitude developed in both treatments. Also, the changes in mixed-venous blood O2 tension and haemoglobin-O2 saturation, arterial to mixed-venous blood O2 content gradient, O2 extraction and markers of anaerobic metabolism (lactate and ammonia production, and metabolic acidosis) were not different from those in the placebo study. Conclusion: Endogenous NO production augments O2 extraction at rest and during submaximal exertion, but not the during short-term maximal exercise. Also, NO synthase inhibition does not affect anaerobic metabolism at rest or during exertion. Potential relevance: It is unlikely that endogenous NO release modifies aerobic or anaerobic metabolism in horses performing short-term maximal exertion. [source] Nitric oxide suppresses transforming growth factor-,1,induced epithelial-to-mesenchymal transition and apoptosis in mouse hepatocytes,HEPATOLOGY, Issue 5 2009Xinchao Pan Nitric oxide (NO) is a multifunctional regulator that is implicated in various physiological and pathological processes. Here we report that administration of NO donor S-nitroso-N-acetylpenicillamine (SNAP) inhibited transforming growth factor-,1 (TGF-,1)-induced epithelial-to-mesenchymal transition (EMT) and apoptosis in mouse hepatocytes. Overexpression of inducible NO synthase (iNOS) by transfection of the iNOS-expressing vector, which increased NO production, also inhibited the TGF-,1-induced EMT and apoptosis in these cells. Treatment of cells with proinflammatory mediators, including tumor necrosis factor (TNF)-,, interleukin (IL)-1,, and interferon (IFN)-,, which increased the endogenous NO production, produced the same inhibitory effect. Furthermore, exogenous NO donor SNAP treatment caused a decrease in the intracellular adenosine triphosphate (ATP) levels. Consistently, depletion of intracellular ATP by mitochondrial uncoupler carbonyl cyanide p-trifluoromethoxyphenylhydrazone (FCCP) inhibited the TGF-,1-induced EMT and apoptosis, suggesting that an NO-induced decrease of ATP involved in the NO-mediated inhibition of TGF-,1-induced EMT and apoptosis. NO and FCCP also inhibited TGF-,1-induced STAT3 activation, suggesting that signal transducer and activator of transcription 3 inactivation is involved in the NO-induced effects on TGF-,1-induced EMT and apoptosis. Conclusion: Our study indicates that NO plays an important role in the inhibition of TGF-,1-induced EMT and apoptosis in mouse hepatocytes through the downregulation of intracellular ATP levels. The data provide an insight into the in vivo mechanisms on the function of NO during the processes of both EMT and apoptosis. (HEPATOLOGY 2009.) [source] Nitric oxide signalling in salivary glandsJOURNAL OF ORAL PATHOLOGY & MEDICINE, Issue 10 2002Dagnia Looms Abstract Nitric oxide (NO) plays multiple roles in both intracellular and extracellular signalling mechanisms with implications for health and disease. This review focuses on the role of NO signalling in salivary secretion. Attention will be paid primarily to endogenous NO production in acinar cells resulting from specific receptor stimulation and to NO-regulated Ca2+ homeostasis. Due to the fact that NO readily crosses membranes by simple diffusion, endogenous NO may play a physiological role in processes as diverse as modifying the secretory output, controlling blood supply to the gland, modulating transmitter output from nerve endings, participating in the host defence barrier, and affecting growth and differentiation of surrounding tissue. Furthermore, the role of NO in the pathogenesis of human oral diseases will be considered. [source] Prevention of a hypoxic Ca2+i response by SERCA inhibitors in cerebral arteriolesBRITISH JOURNAL OF PHARMACOLOGY, Issue 4 2002C Guibert The aim of the study was to investigate the mechanism of a novel effect of hypoxia on intracellular Ca2+ signalling in rabbit cerebral arteriolar smooth muscle cells, an effect that was resistant to the L-type Ca2+ channel antagonist methoxyverapamil (D600). [Ca2+]i of smooth muscle cells in intact arteriolar fragments was measured using the Ca2+ -indicator dye fura-PE3. Hypoxia (PO2 10 , 20 mmHg) lowered basal [Ca2+]i but did not inhibit Ca2+ entry pathways measured by Mn2+ -quenching of fura-PE3. The effect of hypoxia was completely prevented by thapsigargin or cyclopiazonic acid, selective inhibitors of sarcoplasmic reticulum Ca2+ ATPase (SERCA). Since these inhibitors do not block Ca2+ extrusion or uptake via the plasma membrane, the data indicate that the effect of hypoxia depends on a functional sarcoplasmic reticulum. Because actions of nitric oxide (NO) on vascular smooth muscle are also prevented by SERCA inhibitors it was explored whether the effect of hypoxia occurred via modulation of endogenous NO release. Residual NOS-I and NOS-III were detected by immunostaining, and there were NO-dependent effects of NOS inhibitors on Ca2+i -signalling. Nevertheless, inhibition of endogenous NO production did not prevent the effect of hypoxia on [Ca2+]i. The experiments reveal a novel nitric oxide-independent effect of hypoxia that is prevented by SERCA inhibitors. British Journal of Pharmacology (2002) 135, 927,934; doi:10.1038/sj.bjp.0704547 [source] | ||||||||||