Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

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Query: UMLS:C0011570 (depression)
172,036 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The activity of neurones in the zona compacta of the rat substantia nigra was recorded extracellularly in vitro. Dopamine produced a dose-dependent depression of firing, threshold doses being in the 3 microM range. The inhibitory effects of dopamine were antagonized by (-)-sulpiride (pA2 7.5), haloperidol (pA2 8.4) and cis-flupenthixol (pA2 6.9). The actions of gamma-aminobutyric acid (GABA) were not affected by these compounds. The gradients of Schild plots of data for (-)-sulpiride were less than unity while those for haloperidol and cis-flupenthixol were greater than unity, which suggests that the antagonism was not competitive. This is discussed with regard to the use of a bioassay system in the analysis of the effects of antagonists. Haloperidol and (-)-sulpiride were found to have similar potencies, as dopamine receptor antagonists, to those predicted from biochemical and clinical efficacy studies, but cis-flupenthixol was less potent than expected.
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PMID:The actions of antipsychotic drugs on dopamine receptors in the rat substantia nigra. 614 43

Concentrations of biogenic amine metabolites in discrete brain areas differed significantly between dogs with genetically transmitted narcolepsy and age- and breed-matched controls. Dopamine and 3,4-dihydroxyphenylacetic acid were consistently elevated in the brains of narcoleptic animals, while homovanillic acid was not. Narcoleptic animals consistently exhibited lower utilization of dopamine and higher intraneuronal degradation of dopamine but no uniform decrease in serotonin utilization. Hence neuropathology appears to be associated with genetically transmitted canine narcolepsy. The data indicate a nonglobal depression of dopamine utilization or turnover or both.
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PMID:Narcolepsy: biogenic amine deficits in an animal model. 618 16

Carotid bodies and their nerves were excised from rabbits or cats, cleaned of surrounding connective tissue and placed in a chamber through which mammalian saline equilibrated with different gas mixtures was allowed to flow. Single fibers were isolated and identified as chemosensory by their response to hypoxia, hypercapnia, or NaCN. Mass receptor potentials (recorded at some distance from the sensory nerve endings) were evoked by the same stimuli and registered as close as possible to the carotid body. Both cats and rabbits exhibited receptor depolarization and an increased discharge in response to NaCN, hypoxia, hypercapnia and cyanide. However, the effects of some pharmacological agents were quite different in rabbits and cats. In the rabbit, ACh 10-100 microgram and carbachol 1-10 microgram produced receptor hyperpolarization and discharge depression followed by discharge increase. Nicotine 0.3-20 microgram induced receptor depolarization and increased chemosensory discharge frequency. Nicotinic stimulation was antagonized by D-tubocurarine 10(-6)-10(-4) g/ml. Pilocarpine 2-50 microgram hyperpolarized the receptors and depressed discharge frequency. Pilocarpine-induced depression was reduced by atropine 10(-6) g/ml. Dopamine 5-100 microgram depolarized the receptors and increased the chemosensory discharge frequency. This effect of dopamine was reduced by haloperidol (10(-11)-10(-7) M). In the cat, ACh, carbachol and nicotine (same doses as those used in rabbits) induced receptor depolarization and increased the sensory discharge frequency. Pilocarpine (up to 50 microgram) had little effect on either discharge frequency or the receptor potential. Dopamine 5-100 microgram induced receptor hyperpolarization and depression of discharge frequency, and these effects were reduced by haloperidol.
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PMID:A comparative physiological and pharmacological study of cat and rabbit carotid body chemoreceptors. 624 64

Dopamine D2-receptors were directly identified in receptor binding assays with washed particulate preparations of rabbit carotid body using the selective ligand, [3H]domperidone. High affinity, saturable specific binding of [3H]domperidone was clearly demonstrable and chronic section of the sinus nerve resulted in a 32% decrease in the labelling of the dopamine D2-sites. Adenylate cyclase activity was also detected in rabbit carotid body homogenates and although this enzyme was stimulated 4-fold by 10 mM sodium fluoride, neither dopamine nor isoprenaline significantly altered basal activity. On the other hand, in the intact carotid body incubated in vitro, 10(-5) M isoprenaline increased the basal cyclic AMP content 6-fold, though dopamine was again ineffective. The effect of various selective dopamine receptor antagonists and agonists was also studied on chemoreceptor afferent discharge. The results confirm that depression of 'spontaneous' chemosensory discharge is the predominant effect of dopamine (0.01-100 micrograms) in rabbits. The 'selective' D2-agonist, LY 141865, proved very effective (ID50 3.3 nmol) and was equipotent with dopamine (ID50 4.2), whereas, the D1-agonist, SK & F 38393, was very ineffective (ID50 150). The D2-antagonists domperidone and (-)-sulpiride produced a dose-related decrease in the chemodepressant responses to dopamine and LY 141865. However, there was no evidence for any appreciable excitatory action of either of these agonists after blockade of their chemo-depressant effects. The D2-antagonists variably affected the spontaneous activity, there being an increase in discharge on average, whereas responses to hypoxia, cyanide and CO2 were reduced. The present results from biochemical and neuropharmacological studies, provide strong evidence for the presence of functional dopamine D2-receptors in the rabbit carotid body, and suggest that the receptor involved in dopamine-induced depression of chemosensory discharge is of D2-type.
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PMID:Direct biochemical and neuropharmacological identification of dopamine D2-receptors in the rabbit carotid body. 632 Sep 58

Dopamine and dobutamine were administered to 12 patients who had undergone open cardiac operations. To eliminate the effects of variation in systemic blood flow upon renal function the drug infusion rates were adjusted to achieve equal cardiac outputs. Under conditions of equivalent systemic pressure and flow, dopamine (5.0 +/- 1 micrograms X kg-1 X min-1) and dobutamine (3.5 +/- 1.8 micrograms X kg-1 X min-1) had similar effects upon glomerular filtration rate (90 +/- 29 vs. 83 +/- 27 ml X min-1 X 1.73 m-2) and effective renal plasma flow (375 +/- 119 vs. 357 +/- 126 ml X min-1 X 1.73 m-2). However, dopamine administration resulted in a significantly greater diuresis (2.8 +/- 2.7 vs. 1.0 +/- 0.3 ml/min), natriuresis (0.32 +/- 0.39 vs. 0.07 +/- 0.10 mEq Na+/min), and kaliuresis (0.15 +/- 0.06 vs. 0.10 +/- 0.03 mEq K+/min) (P less than 0.05). In patients with modest depression of cardiac performance and renal vasoconstriction, dopamine's selective renal vasodilator effects were not evident. Furthermore, these data suggest that dopamine inhibits tubular solute reabsorption directly. Thus, the diuresis and natriuresis that frequently accompany dopamine administration may occur independently of any effects of dopamine upon renal blood flow.
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PMID:The diuretic properties of dopamine in patients after open-heart operation. 649 87

Dopamine levels in rat carotid bodies and the effects of intravenous dopamine injections on respiration in adult rats anaesthetized with pentobarbitone have been studied in animals which were treated with capsaicin neonatally. Levels of dopamine were five fold higher in the carotid bodies of capsaicin-treated rats as compared with vehicle-treated controls, but there was no significant difference between capsaicin-treated and vehicle-treated rats in their ID50 values for dopamine-induced respiratory depression. Domperidone, a dopamine D2-receptor antagonist, substantially reduced the respiratory depression caused by dopamine, both in capsaicin-treated and in control animals, suggesting that a D2-receptor was involved in the response. Cutting the carotid sinus nerves greatly reduced the ventilatory-depressant effect of dopamine, showing that sensory receptors, most probably arterial chemoreceptors, were responsible for most of the response. Substantially less reflex hyperventilation was evoked in capsaicin-treated rats by the peripheral chemoreceptor stimulants hypoxia and sodium cyanide, in comparison with the controls, and domperidone did not increase the responsiveness. About 80% of the reflex ventilatory change originated from carotid body chemoreceptors. The hypoventilation caused by breathing 100% O2 was not significantly different in capsaicin-treated rats when compared with controls. Domperidone substantially reduced this response in capsaicin-treated rats, but not in vehicle-treated animals. Dopamine-induced respiratory depression in capsaicin-treated rats was slightly enhanced, rather than reduced, by oxygen breathing; domperidone remained an effective antagonist of dopamine-induced ventilatory depression. Most of the reduction in respiration caused by dopamine in rats anaesthetized with pentobarbitone can be attributed to actions on a dopamine D2-receptor located in the carotid body. However, despite the increased levels of dopamine found in the carotid bodies, the reduced peripheral chemosensitivity observed in anaesthetized capsaicin-treated rats does not appear to result from a change in sensitivity to dopamine.
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PMID:Changes in carotid body amine levels and effects of dopamine on respiration in rats treated neonatally with capsaicin. 651 43

This study was designed to more selectively investigate the dopaminergic regulation of 18-hydroxycorticosterone (18-OHB) and aldosterone production by the adrenal zona glomerulosa. Mature rhesus monkeys received either an infusion of dopamine (2 micrograms/kg/min) or 5% dextrose (0.2 ml/min) over a 60 min period (N=6). Dopamine had no effect on plasma levels of renin activity, cortisol, corticosterone, aldosterone or blood pressure. However, dopamine suppressed (p less than 0.05) plasma 18-OHB levels from a baseline of 31.6 +/- 3.5 ng/dl to 23.6 +/- 2.1 ng/dl at 60 min after onset of infusion. This observation is in agreement with some studies in humans but differs from others in which no depression in 18-OHB was observed following dopamine infusion. Dopamine infusion markedly (p less than 0.001) suppressed plasma PRL levels by 30 min after onset of infusion. Corticosteroid responses to metoclopramide (200 micrograms/kg) after dexamethasone 1 mg im every 6 h X 5 days or placebo treatment (vehicle im every 6 h X 5 days) was then evaluated. Dexamethasone significantly suppressed basal cortisol, corticosterone, 18-OHB and aldosterone. Although dexamethasone blunted the prolactin response, it did not inhibit the aldosterone response to metoclopramide. The 18-OHB response to metoclopramide was increased (p less than 0.01) following dexamethasone treatment. Following dexamethasone suppression, 18-OHB levels were still lowered (p less than 0.05) by dopamine infusion. These results suggest that dopamine selectively inhibits zona glomerulosa production of 18-OHB and aldosterone in rhesus monkeys.
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PMID:Evidence for direct inhibitory effects of dopamine on zona glomerulosa secretion of 18-hydroxycorticosterone in rhesus monkeys. 672 68

Rats anesthetized with pentobarbital and ventilated artificially were intoxicated with 1 mg/kg X min propranolol i.v. After 30 min heart rate, mean arterial blood pressure and peripheral resistance had dropped by about 50% and cardiac output by about 25% and were stable for up to 120 min. Isoprenaline proved to be the best antidote for the treatment of propranolol intoxication antagonizing the bradycardia by 76% and the hypotension completely. The antagonistic activities of orciprenaline and prenalterol were lower than those of isoprenaline. Dopamine, adrenaline and noradrenaline antagonized propranolol-induced hypotension but did not considerably influence the bradycardia whereas dobutamine was nearly ineffective in both respects. Glucagon and aminophylline displayed some chronotropic activity without influencing propranolol-induced hypotension. Calcium chloride, on the other hand, produced a moderate elevation of blood pressure but only a small chronotropic activity, and atropine was inactive in both respects. Isoprenaline also restored the cardiac function of propranolol-poisoned rats if administered by infusion and, furthermore, increased the lethal dose of propranolol from 77 to 165 mg/kg. The strong antagonistic activity of isoprenaline against propranolol-induced cardiovascular depression was also confirmed by experiments in pigs. In conclusion, isoprenaline is the most active antidote for the treatment of propranolol intoxication in the rat though the administration of massive doses are required. The vasodilatory effect of isoprenaline can be overcome by the additional administration of a vasoconstricting agent like dopamine.
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PMID:Evaluation of antidotes against the acute cardiovascular toxicity of propranolol. 674 Jul 1

Dichlorvos (O,O-dimethyl-2:2-dichlorovinyl phosphate) was administered IP (3 mg/kg) daily for 10 days to a group of albino rats. Open field behavior was significantly depressed below the mean of the control group. On day 7, ambulation was reduced to 24% of the mean but recovered to 60% on day 10. Similarly, rearing response was decreased on day 7 and showed a fast recovery on day 10 but the preening response further declined on day 10. Defecation, on the contrary, was suppressed to 0% on day 7 and showed complete recovery on day 10. Motor activity showed a significant depression and fine movements were reduced more than gross movements in the second phase. Dopamine was significantly decreased on days 5 and 7 but showed a 13% recovery in the brain stem on day 10. Norepinephrine was significantly reduced in the cerebral hemisphere while serotonin was decreased both in cerebral hemisphere and brain stem. Neither of thse two amines showed significant recovery on day 10. Interesting concordance of the open field behavioral changes with the levels of dopamine, norepinephrine, and serotonin in the various regions of the rat brain was noticeable and has been discussed.
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PMID:Effects of an organophosphate (dichlorvos) on open field behavior and locomotor activity: correlation with regional brain monoamine levels. 677 97

The effects of intravenous infusion of dopamine (20 microgram.min) on the steady-state ventilatory and carotid chemoreceptor responses to successive levels of isocapnic hypoxia and hyperoxic hypercapnia were investigated in cats anesthetized with alpha-chloralose. Dopamine infusion was followed by a maximal decrease in ventilation in about 20 s. Thereafter, the effect diminished and stabilized. Termination of dopamine infusion was promptly followed by an increase in ventilation. These ventilatory responses were smaller than the corresponding carotid chemoreceptor responses. The steady-state effect of dopamine infusion was to diminish ventilation at all levels of arterial O2 tension, the decrease being greater during hypoxia than that during hyperoxia. Bilateral section of the carotid sinus nerves significantly diminished but did not abolish the inhibitory effect of dopamine on ventilation during hyperoxia. Thus the ventilatory depression due to dopamine infusion is not entirely due to its effect on the carotid chemoreceptors. Dopamine decreased ventilatory responses to successive levels of hypercapnia by the same magnitude without changing the slope of the response curves. The steady-state relationship between chemoreceptor activity and ventilation shows that the ventilatory equivalent for carotid chemoreceptor activity is increased during dopamine infusion because of its greater inhibitory effect on carotid chemoreceptor activity than on ventilation with the decrease of arterial O2 tension.
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PMID:Effects of dopamine on chemoreflexes in breathing. 679 Apr 90


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