Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20020 (adenosine triphosphatase)
 3,299 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The contribution of K+ channels and cytochrome P450 generated arachidonic acid (AA) metabolites to the endothelium-dependent vasodilation produced by this fatty acid in the perfused rat isolated mesenteric arteries was examined using a variety of compounds known to inhibit transmembrane K+ channels and cytochrome P450 enzymes. AA (1-1000 nmol) caused dose- and endothelium-dependent vasodilation in the presence of indomethacin and the effect was neither altered by lipoxygenase (AA 861) nor cytochrome P450 monooxygenase (alpha-naphthoflavone, ketoconazole and metyrapone) inhibitors indicating that AA-induced, endothelium-dependent vasodilation in this vascular bed was not mediated by product(s) of AA metabolism. The vasodilator effect of AA was also not altered by L-NG-nitro-arginine, methylene blue (50 microM), oxyhemoglobin (5 microM) or superoxide dismutase (50 U/ml), thus ruling out nitric oxide being its mediator. Conversely, arterial perfusion with K(+)-free or excess (50 mM) K+ Krebs' solution, but not ouabain infusion, minimized the vasodilator effect of AA, suggesting that this action of the fatty acid is due to changes in membrane K+ conductance that is independent of Na+/K(+)-adenosine triphosphatase activity. The vasodilator action of BRL 34915 (a K+ channel activator) was also minimized by extracellular K+ depletion or excess K+ (50 mM), but not by ouabain. Apamin (0.5 microM) and crude scorpion venom (2.5 micrograms/ml) attenuated AA- but not BRL 34915-induced vasodilation. Glyburide (inhibitor of ATP-activated K+ channel) abolished the vasodilator action of AA and BRL 34915. Procaine, a nonspecific K+ channel blocker did not affect AA-induced vasodilation even though it attenuated that caused by BRL 34915.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Contribution of K+ channels to arachidonic acid-induced endothelium-dependent vasodilation in rat isolated perfused mesenteric arteries. 165 Aug 26

The effect of the plant alkaloid ryanodine on the cardiac sarcoplasmic reticulum (SR) function, which plays a major role in the regulation of intracellular calcium and thereby in the generation of force, was studied by determining oxalate-supported calcium uptake, steady-state calcium load, calcium permeability, intravesicular-free calcium and Ca,Mg-adenosine triphosphatase (ATPase) activity of "heavy" vesicles in the presence or absence of the oxygen-free radical-generating system. In vitro generation of oxygen-free radicals by xanthine oxidase (0.09 u/ml), acting on xanthine (25 microM) as a substrate, increased the permeability of the vesicles to calcium, determined by measuring net efflux of calcium after stopping pump-mediated fluxes, and decreased oxalate-supported calcium uptake and steady-state calcium load with no effect on Ca,Mg-ATPase activity. This effect of oxygen-free radicals was inhibited completely by superoxide dismutase, which eliminated completely superoxide anion radical production and caused an anticipated increase in hydrogen peroxide from the xanthine-xanthine oxidase reaction in our system. The xanthine-xanthine oxidase reaction decreased intravesicular-free calcium. The diminished level of intravesicular-free calcium, which was reflected by the decreased steady-state calcium load induced by oxygen-free radicals, was prevented by specific closure of the SR calcium release channel by ryanodine under established optimal conditions; under the same conditions, ryanodine also prevented superoxide dismutase-inhibitable reduction of calcium uptake induced by oxygen-free radicals in the presence or absence of oxalate. Ryanodine was without effect on Ca,Mg-ATPase activity by itself and had no effect on any of the changes in calcium permeability mediated by the generation of oxygen-free radicals under the experimental conditions used.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:The effect of ryanodine on oxygen free radical-induced dysfunction of cardiac sarcoplasmic reticulum. 184 30

Prostacyclin (PGI2) did not alter the basal perfusion pressure in the isolated rat mesenteric arteries perfused with Krebs' solution, but produced a biphasic effect in arteries preconstricted with norepinephrine or arginine vasopressin: constriction, then prolonged dilation. Both these components of PGI2 effect were diminished in arteries denuded of their endothelia by a 10 min perfusion with distilled water or p-bromophenacyl bromide (10 microM). The present study elucidates the mechanism of these PGI2 actions. Indomethacin (0.28 microM) SQ 29548 (1 microM, thromboxane A2 receptor antagonist), saralasin (1 microM, angiotensin II receptor antagonist) or the free radical scavengers, superoxide dismutase (60 U/ml) and catalase (40 U/ml) did not inhibit the initial vasoconstriction, suggesting it was not mediated through endothelially generated thromboxane A2, angiotensin II or oxygen-derived free radicals. However, ethylene glycol bis(beta-aminoethyl ether)-N,N'-tetraacetic acid (50 microM; Ca++ chelating agent), 8-(diethyl-amino)octyl 3,4,5-trimethoxy benzoate (10 microM; intracellular Ca++ antagonist), or neomycin (5 mM; phospholipase-C inhibitor) abolished the vasoconstriction. Ouabain (0.5 mM) did not affect the vasodilation, but perfusion with excess (50 mM) or 0 K+ Krebs' solution abolished it, suggesting this PGI2 action involves changes in membrane K+ conductance via a mechanism independent of Na+/K+ adenosine triphosphatase. Vasodilation evoked by BRL 34915 (K+ channel activator) was similarly attenuated under these conditions, but not by ouabain. Furthermore, procaine (1 mM; nonspecific K+ channel inhibitor), but not apamin (0.5 microM) or tetraethylammonium (10 mM) blocked PGI2- and BRL 34915-induced vasodilation.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Mechanism of vascular actions of prostacyclin in the rat isolated perfused mesenteric arteries. 210 93

The generation of free oxygen radicals from the xanthine-xanthine oxidase system produced a decrease in the steady-state calcium load of canine cardiac sarcoplasmic reticulum (SR) vesicles and an increase in the SR passive calcium permeability. This effect of free oxygen radicals was completely inhibited by superoxide dismutase, a scavenger of superoxide anion radical (.O2-). Treatment of intact SR with a specific calmodulin antagonist, compound 48/80 or W-7, lead to the enhancement of the free oxygen radical-mediated reduction of steady-state calcium accumulation with little effect on passive calcium permeability and Ca,Mg-adenosine triphosphatase activity. The effects of free oxygen radicals and the calmodulin antagonists on steady-state calcium accumulation, but not on passive calcium permeability, were only observed in the presence of the endogenous calmodulin of SR vesicles. These results indicate that stimulation by .O2- and/or a closely related species of free oxygen radical of the passive calcium leak pathway is not calmodulin-dependent and is not a potent way of changing the steady-state calcium accumulation. Hence, we propose that calmodulin-dependent component of calcium fluxes in cardiac SR vesicles is modified directly by free oxygen radicals, and that free oxygen radicals can reduce steady-state calcium accumulation due to increased calcium release through a calcium efflux pathway which is inhibited by calmodulin, but not due to reduced catalytic activity of the pump.
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PMID:Calmodulin and free oxygen radicals interaction with steady-state calcium accumulation and passive calcium permeability of cardiac sarcoplasmic reticulum. 252 16

Total injury in ischemic skeletal muscle is a function of ischemic damage and reperfusion injury. In an attempt to decrease reperfusion injury, we gave the oxygen-derived free radical scavengers allopurinol, superoxide dismutase, or mannitol during reperfusion of canine gracilis muscle made ischemic for 4 hours. We measured muscle O2 consumption (MVO2), and tissue calcium, water, and adenosine triphosphatase (ATP) before ischemia, after ischemia, and at 5 minutes and 60 minutes of reperfusion. The results at 60 minutes showed no improvement in MVO2 or ATP. In fact, ATP was significantly depressed with allopurinol and superoxide dismutase treatment, and tissue edema did not decrease in any of the groups. We conclude that the simple addition of oxygen-derived free radical scavengers during the initial reperfusion of totally ischemic skeletal muscle does not attenuate reperfusion injury.
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PMID:Oxygen-derived free radical scavengers and skeletal muscle ischemic/reperfusion injury. 314 90

Glucose, insulin, potassium (GIK: 300 g glucose + 50 U insulin + 80 mEq KC1/L) was administered to anesthetized dogs as a 30-ml bolus followed by 1.5 ml/kg/h for 2 h. Five populations were studied: control (C, n = 6); 60 min hypothermic arrest both without (I, n = 6) and with pretreatment (I + GIK, n = 6); 60 min hypothermic arrest followed by reperfusion without (R, n = 6) and with pretreatment (R + GIK, n = 6). Glycogen content declined during the ischemic and reperfusion periods whether or not GIK pretreatment was utilized. Glycogen values did not differ significantly among the four groups. GIK pretreatment significantly protected sarcoplasmic reticulum (SR) calcium uptake rates. SR Ca2+ + Mg2+ adenosine triphosphatase (ATPase) activity was unaffected in the I group, depressed in the R group, but protected by GIK pretreatment. Myofibrillar pCa-ATPase activity was significantly depressed in the I group and unaffected by GIK pretreatment. In the R + GIK group, myofibrillar pCa-ATPase activity was identical to controls at all calcium concentrations except for Vmax. In vitro, generation of the superoxide anion by a xanthine-xanthine oxidase system at pH 7.0 significantly depressed both SR calcium uptake and ATPase activity, and this depression was partially reversible by glucose. Generation of the hydroxyl free radical and pH 6.4 significantly depressed calcium uptake but not ATPase activity, and this depression was reversible with glucose + superoxide dismutase. GIK pretreatment exerts a protective effect on the excitation-contraction coupling system during hypothermic global ischemia and reperfusion. Glycogen augmentation after short-term GIK infusion was not significantly different. It is hypothesized that an additional mechanism by which GIK may protect subcellular function is by serving as a scavenger of free radicals generated during the ischemic/reperfusion process.
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PMID:Glucose, insulin, potassium protection during the course of hypothermic global ischemia and reperfusion: a new proposed mechanism by the scavenging of free radicals. 618 57

An initial event in gram-negative bacteremia is activation of the complement cascade with production of C5a. C5a, in turn, acts as a chemotactic stimulus for leukocytic aggregation and, in conjunction with bacterial products, stimulates the release of oxygen free radicals from leukocytes. We have hypothesized that these oxygen free radicals (.O2-, superoxide anion; .OH, hydroxyl radical; H2O2, hydrogen peroxide) contribute to the characteristic myocardial dysfunction of endotoxin shock, Isolated canine cardiac sarcoplasmic reticulum (SR) was used as a subcellular determinant of mechanical function. SR was incubated for 20 min at 37 degrees C in the presence of phorbol myristate acetate activated leukocytes (A-L) and calcium uptake and Ca2+-adenosine triphosphatase (ATPase) activities were measured. Activated leukocytes significantly depressed SR Ca2+ uptake rates (C = 1.12 +/- 0.05 mumol CA2+/mg-min; A-L = 0.73 +/- 0.05). The addition of catalase (CAT; 10 micrograms/ml) or superoxide dismutase (SOD: 10 micrograms/ml) plus CAT reversed the inhibition of SR Ca2+ uptake. SOD further depressed SR Ca2+ uptake (+SOD = 0.55 +/0 0.04 mumol Ca2+/mg-min). Mannitol had no effect. SR ATPase activity was inhibited with A-L (C = 1.41 +/- 0.04 mumol Pi/mg-min; A-L = 0.84 +/- 0.09). Neither mannitol, nor SOD nor CAT alone had any effect on the depression of SR ATPase activity. SOD plus CAT reversed the ATPase depression induced by A-L. It is concluded that phorbol myristate acetate activated leukocytes via free radical-mediated mechanisms can directly affect function and activity of the excitation-contraction coupling system of cardiac muscle. Free radical scavengers identified hydrogen peroxide as a major mediator of depressed Ca2+ uptake rates. In conjunction with the superoxide anion, hydrogen peroxide contributes to the depressed ATPase activity.
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PMID:Interaction of oxygen free radicals and cardiac sarcoplasmic reticulum: proposed role in the pathogenesis of endotoxin shock. 685 Oct 3

Recent experimental work implicates oxygen free radicals as mediators of ischemia/reperfusion injury. A simple cardioplegic solution was designed to scavenge superoxide anion and hydroxyl free radical with superoxide dismutase (10 micrograms/ml), mannitol (325 mOsm/L), and KCl 25 mEq/L (FRS). Hemodynamic and subcellular functions were studied in seven in situ canine models of hypothermic global ischemia receiving FRS, compared to a group (n = 7) receiving hyperosmolar, hyperkalemic saline (HSK) and to a standard model of topical hypothermia (TH, n = 5). Following 60 minutes of ischemia (10 degrees to 15 degrees C), hearts were reperfused and rewarmed. After 45 minutes of reperfusion, left ventricular peak systolic pressure (LVPSP), developed pressure (LVDP), dP/dt max, -dP/dt max, compliance, and elastic stiffness constant (K) were improved in the FRS group and not significantly different from control. Sarcoplasmic reticulum (SR) calcium transport in the FRS group was significantly improved (control = 1.077 +/- 0.022, TH = 0.754 +/- 0.018, HSK = 0.725 +/- 0.05, and FRS = 0.966 +/- 0.05 mumol/mg-min). Calcium adenosine triphosphatase (ATPase) activity did not differ significantly from control at pH 7.0. In this model of hypothermic global ischemia and reperfusion, free radical scavengers provide significant protection of mechanical and subcellular function. These findings support the hypothesis that oxygen free radicals are important mediators of myocardial ischemia and reperfusion injury.
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PMID:Inhibition of surgically induced ischemia/reperfusion injury by oxygen free radical scavengers. 687 62

We investigated the role of reactive oxygen intermediates generated from photoactivation of xanthene dye rose bengal on skeletal sarcoplasmic reticulum (SR) function, which plays a major role in the regulation of intracellular Ca++ and thereby in the generation of force. We used SR microsomes of canine masseter muscle as a model system in which to explore the effect of oxidation by determining oxalate-supported Ca++ uptake, Ca++, Mg++-adenosine triphosphatase (Ca++-ATPase) activity and Ca++ permeability of the SR vesicles. Skeletal SR vesicles exposed to rose bengal (50 nM) illuminated at 560 nm resulted in significant inhibition of Ca++ uptake velocity and Ca++-ATPase activity and in stimulation of Ca++ permeability. The observed effect afforded by illuminated rose bengal was dependent on intensity of light. Most reactive oxygen species scavengers tested had no protective effect; histidine (a powerful quenching agent for singlet oxygen), however, significantly protected the effect of illuminated rose bengal on Ca++ uptake velocity and Ca++-ATPase activity. The illumination of rose bengal also caused histidine-inhibitable loss of total sulfhydryl groups of SR. The increased Ca++ permeability elicited by illuminated rose bengal was blunted by a cocktail of histidine-catalase, but not by histidine alone. Generation of reactive oxygen species (singlet oxygen, superoxide and hydroxyl radical) from photoactivation of rose bengal was studied by electron spin resonance spectroscopy by use of the spin trap 5,5-dimethyl-1-pyrroline-N-oxide (DMPO) and 2,2,6,6-tetramethylpiperidine (TEMP). We found that illumination of rose bengal formed a 1:2:2:1 quartet, characteristic of the hydroxyl radical-DMPO spin adduct, which was effectively blunted by hydroxyl radical scavenger, dimethyl sulfoxide, and by superoxide scavenger, superoxide dismutase. The results of electron spin resonance study also showed that singlet oxygen was produced by photoactivation of rose bengal was detected as singlet oxygen-TEMP product (TEMPO); 2,2,6,6-tetramethylpiperidine-N-oxyl). The formation of TEMPO signal was strongly inhibited by histidine. Similarly, we could detect hydrogen peroxide production from illuminated rose bengal. It is suggested that photoactivation of rose bengal generated singlet oxygen, superoxide, hydrogen peroxide and hydroxyl radical, and the data obtained from the present study indicate that singlet oxygen, rather than superoxide, hydrogen peroxide and hydroxyl radical, to be the active agent in the Ca++ transport system of SR; the observed effect of singlet oxygen may be due to sulfhydryl group oxidation. Our results are also consistent with the view that singlet oxygen does not appear to be an exclusive species that increases Ca++ permeability of SR vesicles, but the increased Ca++ permeability may be caused in part by hydrogen peroxide as well as singlet oxygen.
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PMID:Skeletal sarcoplasmic reticulum dysfunction induced by reactive oxygen intermediates derived from photoactivated rose bengal. 861 41

Although endothelium-derived hyperpolarizing factor (EDHF) is thought to be a cytochrome P-450 product (arachidonic acid metabolite) in some tissues, in porcine coronary arteries (PCAs) its nature remains unclear. Because phospholipase A2 and C are involved in the synthesis and/or release of EDHF in the PCA, the arachidonic acid (AA) pathway may be involved. In the presence of the cyclooxygenase inhibitor indomethacin (10(-5) M) and the NOS inhibitor Nomega-nitro-L-arginine methyl ester (L-NAME; 10(-4) M), both bradykinin (BK; 10(-9)-10(-6) M) and AA (10(-7)-10(-4) M) induced dose-dependent relaxation of PGF2alpha-contracted PCA rings, which was blocked by a high extracellular concentration of KCl (30 mM) or pretreatment with ouabain, a Na+/K+-adenosine triphosphatase (ATPase) inhibitor (5 x 10(-7) M). Eicosatetraynoic acid (ETYA; 20 microM), which inhibits all AA pathways, slightly affected the response to BK and AA; however, lipoxygenase or cytochrome P-450 inhibitors had no effect, suggesting that relaxation is independent of these enzymatic pathways. Because endothelial cells can generate reactive oxygen species (ROS) via metabolism of AA and independent of cyclooxygenase activity, we also studied (a) whether ROS can relax the PCA, as well as the mechanism(s) involved, and (b) the role of ROS in BK- and AA-induced relaxation. Xanthine (X; 100 microM) plus xanthine oxidase (XO; 0.02 U/ml) induced time-dependent relaxation of PGF2alpha-contracted PCA rings in the presence of indomethacin and L-NAME. Dilatation was not affected by superoxide dismutase (SOD; 500 U/ml) but was abolished by catalase (300 U/ml), suggesting that hydrogen peroxide (H2O2) is involved. When rings were contracted by depolarizing them with 30 mM KCl, X/XO failed to elicit relaxation. Ouabain abolished the response to X/XO, suggesting that X/XO may induce relaxation by hyperpolarizing vascular smooth muscle cells via stimulation of the Na+/K+-ATPase pump. We therefore questioned whether ROS might be involved in BK- and AA-induced relaxation. Because catalase combined with SOD had little or no effect, we concluded that in the PCA, the relaxation induced by BK via EDHF involves some mechanism independent of NO, AA metabolism, or ROS.
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PMID:Reactive oxygen species: role in the relaxation induced by bradykinin or arachidonic acid via EDHF in isolated porcine coronary arteries. 1051 Nov 33


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