Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:1.17.3.2 (xanthine oxidase)
 8,383 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Myocardial ischemia and reperfusion can evoke excitation of cardiac vagal afferent nerve endings and activation of a cardiogenic depressor reflex (Bezold-Jarisch effect). We postulate that oxygen-derived free radicals, which are well known to be produced during prolonged ischemia and reperfusion, contribute to this excitation. Hydroxyl radicals derived from hydrogen peroxide (H2O2) activate abdominal sympathetic afferents and produce reflex excitation of the cardiovascular system. However, it is not known whether inhibitory vagal cardiac afferents are activated by oxygen-derived free radicals. We recorded activity from 52 single vagal afferent fibers in 29 rats; the endings of these fibers were located in the walls of all four chambers of the heart. Thirty-three (63%) of these fibers were classified as chemosensitive C-fiber endings because of their irregular discharge under resting conditions, their activation in response to the topical application of capsaicin (1 to 10 micrograms) to the surface of the heart encompassing the receptive field, and their conduction velocities. Fourteen (27%) of the remaining fibers were found to be mechanoreceptors. Topical application of H2O2 to the heart activated 50% of the chemosensitive endings and did not directly affect cardiac mechanoreceptors. Activity increased by 498% at a dose of 3 mumol (P < .001). This effect was reproducible and dose dependent and was not due to [H+]. Topical application of xanthine/xanthine oxidase (20 mmol/0.03 mU) activated 8 of the 12 chemosensitive fibers tested and had no direct effect on mechanosensitive fibers. Activity increased by 287% (P < .001).(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Activation of cardiac vagal afferents by oxygen-derived free radicals in rats. 815 36

1. Myocardial ischaemia and reperfusion can evoke excitation of cardiac vagal afferent nerve endings and activation of a cardiogenic depressor reflex (Bezold-Jarisch effect). We postulate that oxygen free radicals, which are well known to be produced during ischaemia and reperfusion, contribute to this excitation. 2. Activity from vagal afferent fibres in rats, whose endings were located in the walls of all four chambers of the heart, was recorded in response to topical application of pro-oxidant chemicals to the surface of the heart. Activity was also recorded from vagal afferent fibres, whose endings were located in the left ventricle, in response to occlusion of the left anterior coronary artery (LAC) for 30 min and subsequent reperfusion. A majority of the recorded fibres were classified as chemosensitive C-fibre endings due to their irregular discharge under resting conditions, their activation in response to the topical application of capsaicin (1-10 micrograms) to the surface of the heart encompassing the receptive field and their conduction velocities. 3. Topical application of either H2O2 or xanthine/xanthine oxidase to the heart activated 50% of the chemosensitive endings and did not directly affect cardiac mechanoreceptors. This effect was reproducible, dose-dependent and was not due to [H+]. 4. Administration of the superoxide radical scavenging enzyme, superoxide dismutase (20000 U/kg, i.v.), decreased the response of fibres to xanthine/xanthine oxidase but had no effect on the activation caused by H2O2. The antioxidants deferoxamine (20 mg/kg, i.v.) or dimethylthiourea (10 mg/kg, i.v.), which scavenge the hydroxyl radical, abolished the responses to xanthine/xanthine oxidase and H2O2. Administration of indomethacin (5 mg/kg, i.v.) had no effect on the afferent response to H2O2. 5. In response to ligation of the left anterior coronary (LAC), the activity of chemosensitive endings within the ischaemic zone increased within the first 2 min of occlusion. Endings outside the ischaemic zone were not affected at the beginning of ischaemia. Reperfusion activated only chemosensitive endings responsive to topical H2O2. These reperfusion-sensitive endings were located both within and outside the ischaemic zone of the left ventricle. 6. Indomethacin (5 mg/kg, i.v.) prevented activation of chemosensitive endings at the beginning of LAC occlusion regardless of their sensitivity to H2O2 but had no effect on the response to reperfusion. Conversely, deferoxamine (20 mg/kg, i.v.) had no effect on the activation of chemosensitive fibres at the onset of ischaemia, whereas it completely prevented activation at reperfusion. 7. We propose that there are two different mechanisms that activate chemosensitive afferent vagal fibres in the rat heart during ischaemia and reperfusion. The first causes excitation of these endings at the onset of ischaemia and is mediated by prostaglandin synthesis within the ischaemic zone. The second mechanism leads to a more widespread activation of chemosensitive afferents in the left ventricle during prolonged ischaemia and at the moment of reperfusion and is mediated by oxygen free radical formation.
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PMID:Cardiac vagal afferent stimulation by free radicals during ischaemia and reperfusion. 888 94