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 roles of dopaminergic and opioid neurotransmissions in the activity of three tricyclic antidepressants endowed with different monoamine-reuptake properties [desipramine (DESI), imipramine (IMI), amineptine (AMN)] were examined using a behavioral model of depression in rats; the learned helplessness paradigm. In this model, exposure of rats to inescapable shocks (day 1) produced a subsequent escape deficit in a shuttle box test (days 3, 4, and 5). The escape deficit was reversed by AMN, DESI, and IMI administered twice daily for 5 days (16 and 32 mg/kg/day, p < 0.05, days 3, 4, and 5). In addition, AMN tended to enhance the motor activity of rats during the intertrial intervals, but on the first shuttle-box test only (day 3: p < 0.05, control vs AMN). Haloperidol, a preferential D2 dopamine receptor antagonist, acutely injected IP (37.5 microg/kg), suppressed the behavioral activity of DESI and IMI but not that of AMN. Naloxone, a preferential mu-opioid receptor antagonist, acutely injected IP (0.5 mg/kg), suppressed the behavioral activity of IMI but not that of DESI and AMN. It is concluded that an increased dopaminergic activity is a neurochemical effect common to the different tricyclic antidepressants (via a presynaptic mechanism for AMN and a postsynaptic mechanism for DESI and IMI), whereas an increased mu-opioid neurotransmission does not appear to be essential.
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PMID:Dopaminergic and opioidergic mediations of tricyclic antidepressants in the learned helplessness paradigm. 1054 69

Depression-like behavior induced by YM643, a consensus interferon-alpha (IFN-alpha), was evaluated with the tail-suspension test in mice and compared with depression-like behavior induced by sumiferon, a natural IFN-alpha. To investigate the mechanism of IFN-alpha-induced depression-like behavior, the effects of the tricyclic antidepressant imipramine, the cyclooxygenase inhibitor indomethacin, the opioid receptor antagonist naloxone, and the selective corticotropin-releasing hormone receptor antagonist CP-154, 526 on IFN-alpha-induced depression-like behavior were evaluated. Intravenously injected YM643 (2 x 10(8)-2 x 10(9) U/kg) and sumiferon (2 x 10(6)-2 x 10(7) I.U./kg) dose-dependently increased immobility time. Repeated s.c. injection of either YM643 (6 x 10(6)-6 x 10(8) U/kg) or sumiferon (6 x 10(4)-6 x 10(6) I.U./kg) for 7 days also dose-dependently increased immobility time. After i.c.v. injection of either YM643 (2 x 10(6) U/mouse) or sumiferon (6 x 10(4) I.U./mouse), significant prolongation of immobility time also was observed. Pretreatment with imipramine (30 mg/kg s.c.) significantly reduced the YM643- or sumiferon-induced increases in immobility time. CP-154,526 (0.3-3 mg/kg s.c.) dose-dependently reduced YM643- or sumiferon-induced increases in immobility time with ID(50) values of 0.6 mg/kg against YM643 and 1.3 mg/kg against sumiferon. However, neither indomethacin (10 mg/kg s.c.) nor naloxone (3 mg/kg s.c.) had any effect on YM643- or sumiferon-induced increases in immobility time. These results suggest that IFN-alpha centrally induces depression-like behavior in mice that can be alleviated with imipramine. The results also suggest that activation of corticotropin-releasing hormone receptors is involved in IFN-alpha-induced depression-like behavior, but the prostaglandin and opioid systems do not participate in this process.
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PMID:Corticotropin-releasing hormone receptors mediate consensus interferon-alpha YM643-induced depression-like behavior in mice. 1060 46

Buprenorphine and methoclocinnamox are partial micro-opioid receptor agonists with potential use in the treatment of opioid abuse. The ability of these drugs to suppress respiration as well as their ability to antagonize the respiratory suppressant effects of morphine and heroin were tested in rhesus monkeys. Frequency (f), minute volume (V(e)) tidal volume (V(t)) in monkeys breathing air or 5% CO(2) in air were recorded using a pressure-displacement plethysmograph. Buprenorphine (0.001-10 mg/kg) produced a dose-dependent decrease in respiratory parameters that plateaued at a dose of 1 mg/kg in both air and 5% CO(2). Methoclocinnamox (0. 032-1 mg/kg) also produced dose-dependent respiratory depression that plateaued at a dose of 0.3 mg/kg in air, and was directly related to dose in 5% CO(2). Respiratory suppression produced by buprenorphine 1 and 10 mg/kg lasted for 3 and 7 days, respectively, whereas the suppression produced by the largest dose of methoclocinnamox (1 mg/kg, the solubility limit) lasted less than 24 h. Buprenorphine and methoclocinnamox antagonized morphine- and heroin-induced respiratory depression, and this antagonist effect was observed concomitantly with, as well as following, the mu-opioid receptor agonist effects of buprenorphine and methoclocinnamox. The mu-opioid receptor antagonist effects of buprenorphine (10 mg/kg) and methoclocinnamox (1 mg/kg) lasted for 2 weeks. These results suggest that buprenorphine and methoclocinnamox have a wide margin of safety in clinical use and that these two compounds have a prolonged, insurmountable, mu-opioid receptor antagonist effect after the disappearance of their agonist effects.
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PMID:Buprenorphine and methoclocinnamox: agonist and antagonist effects on respiratory function in rhesus monkeys. 1072 71

The pharmacokinetics and pharmacodynamics of the two main metabolites of tramadol, (+)-O-desmethyltramadol and (-)-O-desmethyltramadol, were studied in rats. Pharmacodynamic endpoints evaluated were respiratory depression, measured as the change in arterial blood pCO(2), pO(2), and pH levels; and antinociception, measured by the tail-flick technique. The administration of 10 mg/kg (+)-O-desmethyltramadol in a 10-min i.v. infusion significantly altered pCO(2), pO(2), and pH values in comparison with baseline and lower-dose groups (P <.05). However, 2 mg/kg administered in a 10-min i.v. infusion was enough to achieve 100% antinociception without respiratory depression. Moreover, the beta-funaltrexamine pretreatment completely eliminated the antinociception of the 2-mg/kg dose, suggesting that such an effect is due to mu-opioid receptor activation. To describe and adequately characterize the in vivo antinociceptive effect of the drug, (+)-O-desmethyltramadol was given at different infusion rates of varying lengths (10-300 min). Pharmacokinetics was best described by a two-compartmental model. The time course of response was described using an effect compartment associated with a linear pharmacodynamic model. The estimates of the slope of the effect versus concentration relationship were significantly decreased (P <. 05) as the length of infusion was increased, suggesting the development of tolerance. Doses of up to 8 mg/kg (-)-O-desmethyltramadol given in 10-min i.v. infusion did not elicit either antinociception in the tail-flick test or respiratory effects. These in vivo results are in accordance with the opiate and nonopiate properties reported for these compounds in several in vitro studies.
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PMID:Pharmacokinetic-pharmacodynamic modeling of the antinociceptive effects of main active metabolites of tramadol, (+)-O-desmethyltramadol and (-)-O-desmethyltramadol, in rats. 1077 40

There is evidence that blockade of Ca(2+) channels can modify the analgesia and respiratory depression produced by opioid drugs. The interaction between Ca(2+) channel blockade and drug-induced analgesia and respiratory depression was examined by administration of the L-type Ca(2+) channel blocker diltiazem together with various analgesic drugs. The antinociceptive effects of the drugs were evaluated using a warm-water (50 degrees C) tail-withdrawal assay in rhesus monkeys, and the respiratory depressant effects were evaluated using a pressure-displacement plethysmograph. Pretreatment with diltiazem (10-40 mg/kg, i.m.) 30 min before administration of morphine (0.3 to 10 mg/kg) or heroin (0.03 to 1.0 mg/kg) produced a dose-dependent potentiation of the opioid-induced analgesia. The analgesic potency of morphine and heroin was increased by approximately 0.5 log unit in the presence of 40 mg/kg diltiazem. However, diltiazem failed to alter the analgesic potencies of the mu-opioid receptor agonists, fentanyl, etonitazene, nalbuphine, the kappa-opioid receptor agonist, U-50,488 [(trans)-3, 4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)-cyclohexyl]benzeneacetamide ], or the non-opioid, clonidine. Respiratory frequency, minute volume, and tidal volume were suppressed by morphine, heroin, and fentanyl, but these effects were not modified by pretreatment with diltiazem (40 mg/kg). These results suggest that diltiazem selectively potentiates morphine- and heroin-induced analgesia without modifying the effects of these opioids on respiration.
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PMID:Diltiazem enhances the analgesic but not the respiratory depressant effects of morphine in rhesus monkeys. 1084 2

Endomorphin-2, a newly discovered endogenous opioid peptide and agonist at the mu-opioid receptor, was injected intrathecally in normal rats and animals with unilateral peripheral inflammation or sciatic nerve section and its effect on the nociceptive flexor reflex was analysed. In normal rats, intrathecal endomorphin-2 induced a strong and dose-dependent depression of the reflex, which was naloxone-reversible. The effect of intrathecal endomorphin-2 was fairly brief, lasting for about 20-30 min at the highest dose, 4 microg. The effect of endomorphin-2 in inflamed rats was not significantly different from that in normals. After nerve section some rats developed autotomy behavior. In these rats endomorphin-2 had significantly reduced effect. However, the reflex depressive effect of intrathecal endomorphin-2 was unchanged in axotomized rats without autotomy. It is suggested that intrathecal endomorphin-2 has antinociceptive effect in the rat spinal cord under normal and inflammatory conditions. After peripheral nerve injury the sensitivity to endmorphin-2 may be reduced in rats that exhibit ongoing neuropathic pain-like behaviors.
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PMID:The effect of intrathecal endomorphin-2 on the flexor reflex in normal, inflamed and axotomized rats: reduced effect in rats with autotomy. 1085 66

1. We investigated the mechanism by which human interferon-alpha (IFN-alpha) increases the immobility time in a forced swimming test, an animal model of depression. 2. Central administration of IFN-alpha (0.05 - 50 IU per mouse, i.cist.) increased the immobility time in the forced swimming test in mice in a dose-dependent manner. 3. Neither IFN-beta nor -gamma possessed any effect under the same experimental conditions. 4. Pre-treatment with an opioid receptor antagonist, naloxone (1 mg kg(-1), s.c.) inhibited the prolonged immobility time induced by IFN-alpha (60 KIU kg(-1), i.v. or 50 IU per mouse. i.cist. ). 5. Peripheral administration of naloxone methiodide (1 mg kg(-1), s. c.), which does not pass the blood - brain barrier, failed to block the effect of IFN-alpha, while intracisternal administration of naloxone methiodide (1 nmol per mouse) completely blocked. 6. The effect of IFN-alpha was inhibited by a mu(1)-specific opioid receptor antagonist, naloxonazine (35 mg kg(-1), s.c.) and a mu(1)/mu(2) receptor antagonist, beta-FNA (40 mg kg(-1), s.c.). A selective delta-opioid receptor antagonist, naltrindole (3 mg kg(-1), s.c.) and a kappa-opioid receptor antagonist, nor-binaltorphimine (20 mg kg(-1), s.c.), both failed to inhibit the increasing effect of IFN-alpha. 7. These results suggest that the activator of the central opioid receptors of the mu(1)-subtype might be related to the prolonged immobility time of IFN-alpha, but delta and kappa-opioid receptors most likely are not involved.
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PMID:Involvement of central opioid systems in human interferon-alpha induced immobility in the mouse forced swimming test. 1090 65

1. The centrally acting analgesic tramadol has recently been reported to cause seizures at re-commended dosages in patients, whereas animal experiments had indicated that seizures only occur in high, toxic doses. Tramadol has a dual mechanism of action that includes weak agonistic effects at the mu-opioid receptor as well as inhibition of monoamine (serotonin, norepinephrine) re-uptake. Its major (M1) metabolite mono-O:-desmethyltramadol, which is rapidly formed in vivo, has a markedly higher affinity for mu receptors and may thus contribute to the effects of the parent compound. Furthermore, the pharmacological effects of tramadol appear to be related to the different, but complementary and interactive pharmacologies of its enantiomers. In the present study, we evaluated (+/-)-tramadol, its enantiomers, and its M1 metabolite ((+)-enantiomer) in the amygdala kindling model of epilepsy in rats. Adverse effects determined in kindled rats were compared to those in nonkindled rats. 2. At doses within the analgesic range, (+/-)-tramadol and its enantiomers induced anticonvulsant effects in kindled rats. However, at only slightly higher doses seizures occurred. With (+/-)-tramadol, generalized seizures were observed at 30 mg kg(-1) in most kindled but not in nonkindled rats. The (-)-enantiomer induced myoclonic seizures at 30 mg kg(-1) in most kindled but not in nonkindled rats, although myoclonic seizure activity was observed in some nonkindled rats at 10 or 20 mg kg(-1). Seizures were also observed after the (+)-enantiomer and the (+)-enantiomer of the M1 metabolite, but experiments with higher doses of these compounds were limited by marked respiratory depression. 3. The data demonstrate that kindling enhances the susceptibility of rats to convulsant adverse effects of tramadol and its enantiomers, indicating that a preexisting lowered seizure threshold increases the risk of tramadol-induced seizures.
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PMID:Anticonvulsant and proconvulsant effects of tramadol, its enantiomers and its M1 metabolite in the rat kindling model of epilepsy. 1099 12

The ability of kappa-opioid receptor ligands to modulate dependence-related behavioural effects of drugs like morphine and cocaine is well documented. The present study examined the effects of kappa-opioid agonists on nicotine-induced locomotor stimulation in rats chronically pre-exposed to nicotine (0.4 mg/kg/day). U50,488 [0.5-3 mg/kg subcutaneously (s.c.)], U69,593 [0.08-0.32 mg/kg intraperitoneally (i.p.)] and CI-977 (0.005-0.02 mg/kg s.c.) administered 30 min prior to nicotine (0.06, 0.2 and 0.4 mg/kg s.c.) dose-dependently antagonised its acute locomotor-activating effect, which was completely prevented by the highest tested dose of each agonist. Baseline activity was unaffected by the largest doses of U50,488 and U69,593, but it was reduced by 0.01 and 0.02 mg/kg of CI-977. The selective kappa-opioid receptor antagonist nor-BNI [30 microg intracerebroventricularly (i.c.v.)] blocked the effects of U69,593 on nicotine-induced behaviour, thus supporting the involvement of kappa-opioid receptors in this effect. In conclusion, the activation of kappa-opioid receptors clearly prevented nicotine-induced locomotor stimulation. The effects of at least two of the kappa-opioid agonists were not due to a general motor suppression. It is suggested that the mechanism entails a depression of nicotine-induced increases in accumbal dopamine by these compounds. The results should encourage further research on the role of the kappa-opioid system in the behavioural and neurochemical effects of nicotine, including those related to nicotine dependence.
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PMID:Kappa-opioid receptor modulation of nicotine-induced behaviour. 1104 55

1. Fentanyl, a synthetic mciro-opioid receptor agonist, is the preferred induction and maintenance anaesthetic agent in cardiac surgery. 2. Its actions on myocardial blood flow are poorly understood. There are reports of intra-operative myocardial ischaemia. Its reported actions on cardiorespiratory control vary widely, but do involve hypertension, bradycardia and peripheral vasoconstriction. 3. Accordingly, the postulate that fentanyl would cause coronary vasoconstriction and myocardial disadvantage was examined in awake dogs with a continuous wave Doppler flow probe mounted on the circumflex coronary artery. 4. Continuous intravenous infusion of fentanyl citrate (550 ng/kg per min) raised plasma concentrations of fentanyl to 3.37 ng/mL in a linear fashion at 20 min. There was a fall in core temperature of 0.7 degrees C and, although no apparent depression of ventilation or fall in arterial or coronary sinus PO2, there was a rise in PCO2 and H+ concentration. Some dogs salivated and panted transiently. Thus, fentanyl may reset temperature regulation in low doses but, at higher doses, is associated with metabolic acidosis. 5. In sinus rhythm, the arterial pressure of the dogs fell slightly, then rose to 115% of resting control. Circumflex flow and conductance rose early, then conductance steadily declined to 83%. Heart rate fell, then rose before returning to pre-infusion levels. The early circumflex coronary vasodilator effects, but not the later vasoconstrictor effects, were reduced in dogs with paced hearts. 6. In dogs with paced hearts, a dose-effect study using 138, 275, 550 and 1100 ng/kg per min fentanyl suggested that, at low plasma concentrations of 1-2 ng/mL, vasodilatation does occur in both coronary and systemic circulations; however, at higher doses, intense coronary and systemic vasoconstriction supervenes. 7. The dose-response effect of fentanyl on arterial baroreflex control of circumflex conductance was examined during the immediate 8 s circumflex vasodilator response to a step rise in aortic pressure caused by inflation of an intra-aortic balloon. At low plasma concentrations of fentanyl, baroreflex control of circumflex conductance appears to be enhanced but, with increasing plasma concentrations of fentanyl, appears to be depressed. 8. Therefore, the effects of fentanyl are dose dependent. At low plasma concentrations, left ventricular blood flow and its baroreflex control is enhanced but, at higher concentrations, it is depressed.
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PMID:Effect of fentanyl on baroreflex control of circumflex coronary conductance. 1111 25


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