Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0003129 (Anoxia)
551 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Experiments were designed to determine the role of the endothelium in the responsiveness of the arterial wall to anoxia. Paired rings of canine femoral arteries were mounted for isometric tension recording in organ chambers filled with aerated Krebs-Ringer bicarbonate solution (37 degrees C). One ring served as control; in the other the intimal layer was removed mechanically. Anoxia was induced by gassing the organ chamber with 95% N2/5% CO2. In control rings anoxia augmented contractile responses to noradrenaline, KCl and BaCl2. On return to O2 the contractile responses were transiently depressed. Removal of the endothelium reduced the anoxic augmentation, but did not affect the post-anoxic inhibition. Indomethacin did not affect the response to anoxia. Anoxia abolished the endothelium-dependent inhibitory effect of acetylcholine and thrombin, reduced that of adenosine triphosphate, but augmented that of arachidonic acid. These experiments indicate that endothelial cells may contribute to anoxic facilitation of the responsiveness of the canine arterial wall.
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PMID:Anoxia and endothelium-dependent reactivity of the canine femoral artery. 687 96

Bovine coronary arterial strips (BCA) exhibiting spontaneous tone, relax in response to a decrease in the pO2 of the bathing medium. Experiments were performed to determine if prostaglandins (PGs) mediate the oxygen-induced changes in tension. BCA were equilibrated in Krebs-bicarbonate solution at 37 degrees C gassed with 95% O2, 5% CO2 and tension was measured isometrically. When the pO2 of the bathing medium was decreased, BCA exhibited reversible reductions in tension. Switching from 95% O2, 5% CO2 to 95% N2, 5% CO2 (anoxia) elicited an initial relaxation followed by a contraction. In contrast, a change to 5% O2, 5% CO2, 90% N2 (hypoxia) was followed by a sustained relaxation. Re-introduction of O2 to anoxic strips produced a biphasic response: relaxation followed by contraction. Indomethacin or eicosatetraynoic acid (EYA) increased tone and inhibited the relaxation produced by anoxia or hypoxia. Indomethacin or EYA did not inhibit the relaxation of anoxic strips during re-introduction of O2, but did inhibit the contraction partially. Relaxation of arterial strips to arachidonic acid (AA) was similar to relaxation to prostacyclin (PGI2). Anoxia limited the relaxation to AA but not to PGI2. We conclude that PG synthesis contributes to the basal tone and the hypoxia-induced relaxation of BCA. In addition, hypoxia, unless severe, does not prevent the conversion of AA to PGI2.
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PMID:Prostacyclin (PGI2) mediates hypoxic relaxation of bovine coronary arterial strips. 701 74

Previous studies have demonstrated that the mechanism of excitation contraction coupling changes with normal development in rabbit urinary bladder smooth muscle. The present study was designed to determine whether there were any differences in the effects of anoxia and extracellular acidosis in response to field stimulation, bethanechol and KCl between mature (8 weeks) and neonatal (3 days) rabbit bladder smooth muscle. Bladder smooth muscle strips from mature and neonatal New Zealand White rabbits were mounted in organ baths and bathed in oxygenated Tyrode's solution. Anoxia was produced by changing the gas mixture to 95% nitrogen/5% CO2 and the effects on contractility were determined at different times after initiation of anoxia. The extracellular acidosis was produced by decreasing the buffer's NaHCO3 concentration. We conclude that bladder smooth muscle does not exhibit an age-specific ability to counteract the effects of anoxia or acidosis as is seen in the developing rabbit myocardium. Instead it appears that the purinergic mechanisms of contraction are much more sensitive to the effects of anoxia or acidosis. Neonatal bladder smooth muscle exhibits a greater drop in contractility with anoxia or acidosis at low frequency (2 Hz) field stimulation; we attribute this to the fact that neonatal bladder smooth muscle has a greater purinergic component in its response to field stimulation. These differences in the responses to anoxia and pH reflect alternate mechanisms of pharmacologic activation, and not inherent differences in the biochemistry of the maturing smooth muscle.
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PMID:Developmental factors in the contractile response of rabbit urinary bladder: effect of anoxia and extracellular acidosis. 766 16

1. The role of glutamate in producing tissue damage during cerebral anoxia was investigated in brain slices using antagonists to the NMDA and AMPA receptor types. 2. Tissue function was assessed by field recordings of the synaptically evoked potentials elicited by stimulating the main afferent input to the olfactory cortex, the lateral olfactory tract. Anoxia was produced by bathing the slice in glucose-free solution equilibrated with 95% N2/5% CO2. 3. The amount of recovery of the evoked potential was inversely dependent on the period of anoxia and temperature: at 24 degrees C, 15 min of anoxia followed by reoxygenation produced a 14.6 +/- 4.1% recovery whereas there was no recovery at 35 degrees C. 4. Dizocilpine and ketamine had no effect on synaptic transmission in oxygenated media but following anoxia they produced an increased recovery of the responses: from 14.6 +/- 4.1% to 48.3 +/- 7.8% for dizocilpine (10 microM) and 21.6 +/- 7.7% to 87.2 +/- 7.1% for ketamine (200 microM); the tissue endurance to anoxia was increased by around 5 min. 5. Blockade of the AMPA receptors did not influence recovery in spite of the depressed synaptic transmission. A similar synaptic attenuation produced by lignocaine provided some increase in post-anoxic recovery. 6. The NMDA receptor antagonist, AP5, antagonized NMDA at 50 microM by 3.7 fold and at 200 microM by 15 fold but only 200 microM increased post-anoxic recovery. This suggests that a substantial degree of NMDA antagonist is required before anoxic tissue damage due to NMDA receptor activation can be nullified. The antagonist to the glycine binding site, 7-chlorokynurenic acid also increased recovery. 7. These in vitro experiments confirm the idea that NMDA receptor activation makes a substantial contribution to cerebral tissue damage and that this can be reduced by a substantial blockade of these receptors.
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PMID:NMDA antagonists increase recovery of evoked potentials from slices of rat olfactory cortex after anoxia. 791 73

Anoxia-induced depletion of cellular ATP may affect the degree of protein phosphorylation due to kinase inhibition. In this study, protein phosphorylation was measured in rabbit kidney proximal tubules under normoxic or anoxic conditions in a medium containing 32P. During the first 20 min of normoxia, phosphate incorporation was linear, averaging 17 +/- 5 pmol.mg protein-1.min-1 and was 70% inhibited by the protein kinase C inhibitor chelerythrine chloride. Phosphorylation measurements initiated simultaneously with anoxic conditions (95% N2-5% CO2) significantly reduced the initial rate to 58% of control, saturating after 15 min, and reaching 28 +/- 5% of the normoxic value after 60 min of incubation. The phosphatase inhibitor calyculin A did not affect the initial rate of phosphate incorporation by anoxic tubules but increased phosphate incorporation at 60 min to 43 +/- 4% of normoxia. Addition of 32P after 15 min of anoxia abolished phosphate incorporation, demonstrating that kinase activity was completely inhibited. Cellular phosphate uptake was measured and found not to be rate limiting for phosphorylation. Chelerythrine chloride increased lactate dehydrogenase (LDH) release during normoxia, and calyculin A decreased anoxia-induced LDH release, suggesting that protein phosphorylation events may control plasma membrane permeability.
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PMID:Decreased protein phosphorylation induced by anoxia in proximal renal tubules. 794 70

In an attempt to search for neuronal models to investigate the molecular pharmacology of central nervous system ischemia, we have focused on PC12 pheochromocytoma cultures which are now popular in neuroscience research. These chromaffinergic transformed cells, originary from the adrenal medulla, synthesize and release catecholamines and, upon treatment with nerve growth factor (NGF), differentiate to a sympathetic phenotype expressing neurites and excitability. To measure eicosanoid production, undifferentiated or NGF-treated PC12 cultures have been exposed for 1 h to a mixture of N2/CO2 (95:5%), resulting in hypoxia (5 +/- 1% O2), followed by 1 h reoxygenation (21% O2) using a special ischemic device. Hypoxia, up to 2 h, was not followed by significant cytotoxicity or significant production of prostaglandin PGE2. However, upon reoxygenation, a specific release of PGE2 (2-3 fold over control) was measured. A similar PGE2-enhanced release could be induced by 'chemical hypoxia' using 2-deoxyglucose and oligomycin to reduce cellular adenosine triphosphate (ATP). Anoxia (0.1-1% O2, 1 h) achieved by a reduction of culture incubation volume and the reduction in ATP level have been found as critical parameters leading to PC12 cells cytotoxicity. These results emphasize the simplicity and applicability of the tissue culture ischemic device proposed to investigate hypoxia and ischemia at a cellular level.
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PMID:A tissue culture ischemic device to study eicosanoid release by pheochromocytoma PC12 cultures. 810 1

Ca2+ antagonists were studied during anoxia in perfused isolated rat hepatocytes. Cytosolic free calcium (Ca2+i) was measured with aequorin. Anoxia was induced for 2 h by saturating the perfusate with 95% N2/5+ CO2. Anoxia increased Ca2+i in two distinct phases reaching a maximum of 1.5 microM. The increase in Ca2+i was caused by Ca2+ influx from the extracellular fluids because the main Ca2+i surge was totally abolished in Ca(2+)-free media. LDH release increased 6-fold during the second hour of anoxia, but when Ca2+ was removed from the perfusate during the anoxic period, LDH rose only 2.7-fold. Ca2+ antagonists (10(-7) to 10(-5) M) did not prevent the increase in Ca2+i and the rise in LDH release. On the contrary, high concentrations (10(-6) and 10(-5) M) of the blockers nifedipine and diltiazem significantly increased anoxic cell injury. The observation that the increase in LDH and the rise in Ca2+i were not suppressed by Ca2+ antagonists suggests that (i) Ca2+ antagonists protect the whole liver from anoxic injury by acting on cells other than parenchymal cells; (ii) the influx of Ca2+ responsible for the massive increase in hepatocyte Ca2+i evoked by anoxia did not take place through voltage-sensitive Ca2+ channels but must have occurred via the Na(+)-Ca2+ antiporter operating in the reverse mode (Ca2+ influx vs. Na+ efflux), and (iii) high concentrations of Ca2+ antagonists may be deleterious to the parenchymal cells of the liver.
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PMID:Ca2+ antagonists do not protect isolated perfused rat hepatocytes from anoxic injury. 848 64

1. The effects of anoxia on excitatory and inhibitory postsynaptic currents (EPSCs and IPSCs, respectively) evoked by electrical stimulation in the stratum radiatum were studied in morphologically and electrophysiologicaly identified lacunosum-moleculare (LM) interneurons of the CA1 region of rat hippocampal slices. The blind whole cell patch-clamp technique was used, and anoxia was induced by superfusion of the slice with an anoxic artificial cerebral spinal fluid saturated with 95% N2-5% CO2 for 4-6 min. 2. In LM interneurons, anoxia generated currents similar to those in pyramidal cells, the most prominent being anoxic and postanoxic outward currents. The adenosine A1 type receptor antagonist 8-cyclopentyl-1,3-dipropylxanthine (DPCPX, 200 nM) did not significantly affect anoxia-generated currents. 3. EPSCs and polysynaptic IPSCs (pIPSCs) evoked in LM interneurons by "distant" stimulation (> 1 mm) in the stratum radiatum were strongly depressed by anoxia and recovered upon reoxygenation. 4. Responses to pressure application of glutamate, alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA), and N-methyl-D-aspartate (NMDA) were not significantly affected by anoxia, suggesting that the suppression of EPSCs is due to presynaptic mechanisms. 5. DPCPX (200 nM) prevented anoxia-induced suppression of EPSCs, suggesting that this suppression was mediated by presynaptic A1 adenosine receptors. 6. Monosynaptic IPSCs evoked by "close" stimulation (< 0.5 mm) in the stratum radiatum, in the presence of glutamate-receptor antagonists 6-cyano-7-nitroquinoxaline-2,3-dione (CNQX; 20 microM) and D-2-amino-5-phosphopentanoate (APV; 50 microM), were reversibly depressed but not blocked by anoxia. 7. Anoxia depressed monosynaptic GABAA receptor-mediated IPSCs (monosynaptic IPSCAs) by inducing a positive shift in the reversal potential and a decrease in slope conductance. Responses to pressure-applied isoguvacine, a GABAA receptor agonist, were reversibly depressed by anoxia, again because of a positive shift in reversal potential and decrease in conductance. Anoxic effects on slope conductances and reversal potential of isoguvacine responses and monosynaptic IPSCA coincided, suggesting that evoked transmitter release from GABAergic terminals was not affected by anoxia. 8. Anoxic depression of monosynaptic GABAB receptor-mediated IPSCs (monosynaptic IPSCBs) was due to a decrease in the slope conductance of monosynaptic IPSCB. In contrast to EPSCs, DPCPX (200 nM) failed to prevent anoxia-induced depression of mIPSCA and mIPSCB. 9. Paired-pulse depression of monosynaptic IPSCs, partially mediated by presynaptic GABAB receptors, was not affected by anoxia. 10. These data provide direct evidence for the hypothesis that inhibitory interneurons of CA1 stratum LM are functionally disconnected from excitatory inputs by anoxia. This disconnection underlies the preferential block by anoxia of IPSCs recorded in pyramidal cells, and it may occult the postsynaptic modifications in GABAA and GABAB responses. This disconnection involves adenosine-dependent inhibition of glutamate release from excitatory terminals. GABA release and its modulation by presynaptic GABAB receptors, both known to be insensitive to adenosine, seems to be resistant to anoxia.
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PMID:Hippocampal CA1 lacunosum-moleculare interneurons: comparison of effects of anoxia on excitatory and inhibitory postsynaptic currents. 859 2

One of the most important negative consequences of hypoxic stress in the mammalian myocardium is a breakdown in intracellular calcium homeostasis. This study examines the effects of anoxic stress on intracellular calcium regulation in isolated ventricular myocytes from a hypoxia tolerant vertebrate, the western painted turtle (Chrysemys picta bellii). Isolated calcium tolerant cardiomyocytes from turtle hearts were mounted on a glass cover slip that formed the bottom of a sealed, Plexiglas perfusion chamber. Free [Ca2+]i (determined by FURA2 fluorescence) in isolated turtle cardiomyocytes averaged 31.7 +/- 3.2 nM after 30 min of normoxic perfusion (20 degrees C, pHc = 7.77). This value is on the low end of the published range for mammalian cardiomyocytes. Perfusion with anoxic Ringer equilibrated with 3% CO2, resulted in a significant increase in free [Ca2+]i to 941 +/- 494.6 nM after 60 min. Increasing the CO2 in the perfusion solution to 5% or 6% blunted this rise (peak levels after 60 min of anoxia were 420.5 +/- 176.0 nM and 393.8 +/- 132.8 nM, respectively). A further increase to 8% CO2 increased the maximal value for free [Ca2+]i to 610.9 +/- 297.5 nM. In eight cells from the 5% CO2 protocol in which [Ca2+]i was monitored during recovery, reperfusion with normoxic Ringer rapidly lowered intracellular calcium to 92.8 +/- 9.7 nM within 15 min. Anoxia at relatively high extracellular (and hence intracellular) pH results in an increase in free [Ca2+]i comparable in magnitude and time course to that seen in some mammalian cardiomyocyte preparations. Perfusion of anoxic myocytes with Ringer equilibrated with either 5% or 6% CO2 blunted this increase in intracellular calcium, possibly an example of the pH paradox effect. A more severe combination of respiratory acidosis and anoxia (8% CO2) removed this protective effect.
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PMID:Effects of anoxia on intracellular free Ca2+ in isolated cardiomyocytes from turtles. 912 83

Sensitivity to ischemia and reperfusion injury is a main problem afflicting tissues exposed to a prolonged period of oxygen deprivation. The generation of oxygen free radicals, in particular, is considered a major cause of postischemic reperfusion injury. However, studies on the mechanisms of production of free radicals are limited by the difficulty to measure in real time their formation and to discriminate between the different oxyradical species. The aim of this study was to determine whether the formation of oxygen free radicals occurs in murine osteoblastlike cells (MC3T3-E1) exposed to anoxia and reoxygenation and to explore its relation to the reoxygenation injury. Cells were cast in agarose and perfused with oxygenated Krebs-Henseleit bicarbonate buffer. Anoxia was obtained by shifting the gas phase of the media to 95% N2-5% CO2. Oxygen free radicals were detected by enhanced chemiluminescence: anion superoxide or hydrogen peroxide was measured by adding lucigenin or luminol plus horseradish peroxidase to the media, respectively. Cell injury was assessed by the rate of lactate dehydrogenase release. During the control period, lucigenin and luminol plus horseradish chemiluminescences were 15 +/- 1 nA per chamber and 20 +/- 2 nA per chamber, respectively. and lactate dehydrogenase release was 10 +/- 1 mU per minute. During anoxia, both chemiluminescences dropped to background levels, although lactate dehydrogenase release increased progressively to 38 +/- 7 mU per minute. During reoxygenation, O2 formation increased sharply to 45 +/- 6 nA and decreased to control levels; H2O2 production increased slowly, reaching 42 +/- 7 nA at the end of the reoxygenation period; lactate dehydrogenase declined progressively to control values. These results show that osteoblastlike cells produce measurable amounts of superoxide and hydrogen peroxide radicals during reoxygenation. Because lactate dehydrogenase release did not appear to relate to chemiluminescence, oxyradical flux may serve as a signal for other events that eventually lead to cell injury.
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PMID:Generation of free radicals during anoxia and reoxygenation in perfused osteoblastlike cells. 917 Mar 87


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