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)

Metoclopramide has a dual effect on intestinal smooth muscle. Low concentrations of metoclopramide cause potentiation of the responses to substance P, acetylcholine, histamine and barium chloride on the guinea-pig ileum. Higher concentrations produce a depression of smooth muscle responses which is characteristic of the tertiary amine local anesthetics. Neural pathways are involved in the mechanism of potentiation, since the enhancement of the responses to the agonists is abolished by tetrodotoxin. Atropine partially antagonizes the potentiating effect of metoclopramide implying that activation of muscarinic receptors is a contributing factor, but this does not fully explain the potentiation.
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PMID:The effects of metoclopramide in modifying the response of isolated guinea-pig ileum to various agonists. 0 87

Pressure increases elicited by contractions of the circular muscle of the isolated guinea-pig vas deferens in response to nerve stimulation were recorded. In contrast to longitudinal muscle which contracted in response to 1--50 pulses, circular muscle responded only to longer trains of pulses (10--500) at a frequency of 10 Hz. Atropine (1.4 muM) caused a slight depression of responses to 100 shocks. Phentolamine at a concentration of 2.6 muM failed to inhibit the response to stimulation, but a higher concentration (53 muM) caused a definite blockade. Guanethidine (25 muM) strongly reduced the responses. With a stimulus train of 100 pulses no inhibition by prostaglandin E1 (PGE1) (0.028 muM) could be demonstrated; however, at a lower number of shocks (20--50) a clearcut depression was observed. The lower the number of pulses the more marked was the depression. The observation that PGE1 failed to block the contractions evoked by noradrenaline (59 muM) suggests a presynaptic inhibitory action of the prostaglandin. It is suggested that noradrenaline is the transmitter in both muscle coats of the guinea-pig vas deferens and that the neuroeffector junctions are sensitive to the effect of PGE1.
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PMID:Inhibition of neuromuscular transmission by prostaglandin E1 in the circular muscle of the guinea-pig vas deferens. 18 81

The effects of theophylline and N6,O2-dibutyryl adenosine 3':5'-monophosphate (DBcAMP) on the amplitude of the postganglionic action potential during and after a 10 Hz repetitive volley, and 50 to 1000 msec after a conditioning stimulus were investigated. The effects of both drugs on some electrophysiological properties of single cells of the isolated superior cervical ganglia of rats were also studied. At low concentrations of theophylline a reversible potentiation of the compound action potential occurred during and after repetitive stimulation at 10 Hz and also after the single conditioning stimulus. This effect was antagonized by atropine. Large concentrations of theophylline exerted a depressive effect only. Low concentrations of DBcAMP caused a reversible initial depression followed by a durable facilitation of transmission during repetitive stimulation. These concentrations potentiated the action potential amplitude after repetitive stimulation, but depressed it after a single conditioning stimulus. Atropine augmented the latter two effects. DBcAMP at large concentrations depressed transmission, but transmission was facilitated after drug washout. Theophylline and guanosine 3':5'-monophosphate, at ineffective concentrations when used singly, potentiated each other and elicited facilitation which was abolished by atropine. Theophylline and DBcAMP at these concentrations depolarized ganglion cells with a time course shorter than that of the aforementioned effects. Both drugs reduced the frequency and amplitude of the spontaneous miniature excitatory postsynaptic potentials. Theophylline did not increase the evoked transmitter release appreciably. On the basis of these findings and the evidence from literature, it is suggested that the reversible facilitatory effect of theophylline may be at least in part due to inhibition of phosphodiesterase of the ganglion cells leading to an enhanced muscarinic transmission. The prolonged facilitatory effect of DBcAMP may result from a durable change in the postsynaptic membrane structure leading to enhanced muscarinic transmission. An enhancement in the muscarinic transmission by both drugs increases the membrane excitability causing recruitment of subthreshold depolarized cells to discharge resulting in facilitation.
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PMID:Effects of theophylline and N6,O2-dibutyryl adenosine 3':5'-monophosphate on sympathetic ganglionic transmission in rats. 20 71

The mechanical and hemodynamic components of a cardiogenic hypertensive chemoreflex were studied in 50 dogs. Within 6 seconds after a single injection of serotonin (100 microgram/ml) into the left atrium, mean pressure (mm Hg) rose in the aorta from 103 to 197 and in the pulmonary artery from 21 to 34. Left ventricular dp/dt virtually doubled. There was an increase (75%) in peripheral vascular resistance that returned to control within 10 seconds. There was no significant change in pulmonary vascular resistance. Aortic and pulmonary arterial hypertension were associated with a profound depression (82%) in atrial force. Atropine transformed this negative inotropic effect on the atria into a positive inotropic action that averaged 65%. In contrast, ventricular force was always sharply increased, more in the right (95%) than in the left ventricle (50%). Bilateral stellectomy did not eliminate the reflex but it completely abolished the initial increase of cardiac contractility; a delayed increase in contractility persisted and was due exclusively to release of catecholamines from the adrenal glands. This cardiogenic hypertensive chemoreflex uses the vagus for its afferent neural traffic and both the sympathetic and the vagus nerves for its efferent route. The brief and intense systemic vasoconstriction concomitant with an increase in cardiac contractility might represent a kind of "aortic cough." Some possible clinical implications are discussed.
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PMID:Hemodynamic components of a cardiogenic hypertensive chemoreflex in dogs. 61 94

In 14 duodenal Thomas fistula dogs, four of them alcohol-fed for two years, lidocaine, applied topically to the duodenal pancreatic papilla, inhibited secretin-induced pancreatic secretion probably by interrupting duodenopancreatic reflexes that contribute to the "pancreon's" cholinergic tone. Opposite effects were observed with lidocaine administered against a CCK plus secretin background stimulation of the pancreas. The significant rising of volume and protein output above plateau levels were enhanced by chronic alcohol feeding. Lidocaine infused intravenously did not change secretin-induced pancreatic secretion but raised CCK and secretin evoked plateau secretion levels. Chronic alcoholism enhanced these latter effects. Atropine perfusion superimposed on CCK and secretin stimulation did not prevent but raised the intravenous lidocaine-induced pancreatic secretion changes. It is postulated that the modifications elicited by lidocaine sprayed topically and infused intravenously on CCK plus secretin evoked pancreatic secretion plateau levels are due to depression of an anti-CCK factor secreted by the small intestine mucosa.
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PMID:Evidences for duodenopancreatic reflexes and an anti-CCK factor with lidocaine infused intravenously and sprayed topically on pancreatic papilla in nonalcoholic and alcohol-fed dogs. 79 79

Mice, administered haloperidol 3 mg/kg/day, in their drinking water for 21 days, were tested for their responsiveness to cholinergic and anticholinergic drugs 4 days after withdrawal from haloperidol (or vehicle). Haloperidol-treated animals administered methylhyoscine (1 mg/kg i.p.) and various doses of physostigmine (5 to 1215 microgram/kg) displayed significantly less depression of locomotor activity than vehicle-treated animals. Atropine, 5 mg/kg, whilst ineffective in producing locomotor stimulation in vehicle-treated animals, produced marked stimulation in haloperidol-treated animals. Methylatropine (5 mg/kg) did not produce significant stimulation in either group. Dopamine receptor supersensitivity was present in these animals as haloperidol-treated mice, pretreated with alpha-methyltyrosine and reserpine, displayed a significantly greater locomotor response to apomorphine than did vehicle-treated animals. The data support the hypothesis that long-term administration of haloperidol produces an apparent hyposensitivity of central muscarinic receptors.
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PMID:The demonstration of a change in responsiveness of mice to physostigmine and atropine after withdrawal from long-term haloperidol pretreatment. 87 70

Atropine (At) and scopolamine (Sc) in low doses intensify basic activity, increase amphetamine stereotypy, and suppress catalepsy induced by injection of haloperidol. High doses lower body temperature, antagonize amphetamine stereotypy, and intensify the hypnotic action of chloral hydrate. Doses of about 1/2 LD50 induce narcotic sleep. Both At and Sc in a wide range of dosage protect against the tonic phase of convulsions produced by electroshock. Sc depresses content of acetylcholine in the brain proportionally to its dosage; At had a similar effect only at the lower of the two doses that were used. Both compounds had no effect on levels of noradrenaline and dopamine in the brain. The results indicate that low doses of blockers of the cholinergic muscarinic receptor, injected intraventricularly, produce strong central stimulation, whereas high doses produce depression of the central nervous system.
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PMID:Central action of drugs acting on the cholinergic muscarinic receptor. III. Influence of atropine and scopolamine injected intraventricularly on behavior and levels of biogenic amines in the rat brain. 117 21

1 Chemoreceptor discharges were recorded in vivo from fine filaments of the carotid sinus nerve containing a single or several active units; their frequency was used as an index of receptor activity. The effects of 5-hydroxytryptamine (5-HT) on chemoreceptors were studied in 26 adult cats. At times, sinus baroreceptor discharges were recorded from the carotid nerve and the effect of 5-HT on the discharges was examined. 2 Intra-carotid injections of 5-HT (2-20 mug) induced a sharp and brief increase in chemoreceptor discharges, followed by depression or block which lasted for several seconds. Repeated injections at short intervals, and a small dose after a large dose of 5-HT resulted in depressed or blocked response to 5-HT. 3 5-HT in high doses (10-20 mug, i.a.) slightly depressed the chemoreceptor discharges induced by either acetylcholine (ACh) or NaCN, when these substances were applied within 20 s after 5-HT. 5-HT (5-20 mug, i.a.) applied during asphyxia induced a further increase in chemoreceptor discharges, soon followed by block of the discharges lasting for several seconds. 4 Atropine or hexamethonium in high doses did not change the chemoreceptor response to 5-HT, while that to ACh was markedly depressed. 5 (+)-Lysergic diethylamide (LSD), methysergide or gramine did not alter the response to 5-HT, while LSD in low doses produced a marked increase in chemoreceptor discharges. 6 Acute and chronic treatment with reserpine (5-10 mg/kg, i.v.) of the animals did not change the sensitivity and the reactivity of the chemoreceptor to ACh and NaCN, while the chemoreceptor response to 5-HT was augmented, indicating an increase in the sensitivity of chemoreceptors to 5-HT. 7 5-HT in small doses (2-10 mug, i.a.) induced a marked increase in sinus baroreceptor discharges; subsequently discharges were depressed or blocked for several seconds. 8 The results are discussed in relation to possible mechanism of action of 5-HT on the chemoreceptors. It is concluded that the exogenous 5-HT probably acts directly on the chemosensory nerve endings and depolarizes them, but 5-HT contained in the carotid body does not play a significant role in the generation of chemoreceptor discharges.
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PMID:The action of 5-hydroxytryptamine on chemoreceptor discharges of the cat's carotid body. 118 45

The mode of action of the excitatory neuropeptide substance P was studied on the circular muscle of the guinea pig ileum in vitro. Atropine or tetrodotoxin strongly inhibited substance P-induced phasic contractions. The atropine-resistant part of the circular response was blocked by tetrodotoxin. A newly-developed method for quantitative evaluation revealed a rightward displacement of the substance P concentration-response curve, as well as a strong depression of the maximum effect, in the presence of atropine. These results indicate that cholinergic (and probably also non-cholinergic) excitatory neurons mediate phasic contractions due to substance P. The tonic component of the substance P-induced contraction was slightly reduced by atropine.
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PMID:Cholinergic neurons are involved in the effect of substance P on the circular muscle of the guinea pig small intestine. 128 67

Repetitive stimulation (30 Hz, 20 sec) of the preganglionic nerve to the hamster isolated stellate ganglion in a control solution had only small effects on the compound action potentials of the postganglionic nerve (0.2 Hz) after the train. When 10(-5) M d-amphetamine was added to the superfusing solution, the repetitive stimulation induced a post-train depression of the postganglionic compound action potential. The mean reduction of the compound action potential during the post-train depression in d-amphetamine was 37 +/- 15% and the duration was from 60 to 120 sec. Post-train depression only occurred after long conditioning trains and was never observed with less than 100 stimuli in the conditioning train. A post-train depression (45 +/- 8%) was also observed in the presence of 10(-5) M cocaine. The post-train depression in d-amphetamine was significantly reduced by the alpha-adrenoceptor antagonist, phentolamine (10(-5) M) and by the alpha 2-adrenoceptor antagonist, yohimbine (10(-6) M), but not by the alpha 1-adrenoceptor antagonist, prazosin (10(-5) M). There was no post-train depression in the presence of d-amphetamine in ganglia from five hamsters that were pretreated with reserpine (6 mg/kg, i.p., 4 hr). Atropine (10(-6) M) increased and prolonged the post-train depression in the presence of d-amphetamine. These results indicate that repetitive stimulation in the presence of d-amphetamine leads to a post-train depression of the postganglionic compound action potential that is mediated by an action of endogenous catecholamines at alpha 2-adrenoceptors. Muscarinic cholinoceptors do not appear to be involved in the generation of the post-train depression.
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PMID:Post-train depression of ganglionic transmission in the presence of d-amphetamine. 133 26


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