UMLS:C0011570 - FACTA Search

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

1. Cardiac output, arterial pressure, heart rate, systemic vascular conductance, respiratory rate and arterial blood PO2 and PCO2 were measured in unanaesthetized rabbits. Haemorrhage was simulated by inflating a cuff placed around the inferior vena cava so that cardiac output fell at a constant rate of about 8% of its resting value per min. 2. The effects of drug treatments on resting haemodynamic and respiratory variables, and on the haemodynamic response to simulated haemorrhage, were tested. The treatments were; 4th ventricular (-)-naloxone HCl (10-100 nmol), 4th ventricular H-Tyr-D-Ala-Gly-MePhe-NH(CH2)2OH (DAMGO; 30-300 pmol), and i.v. morphine sulphate (0.5-5.0 mumol kg-1). The interactions of graded 4th ventricular doses of naloxone (3-100 nmol) with the actions of DAMGO (100-300 pmol) on these responses were also assessed. 3. After sham treatments, the circulatory response to simulated haemorrhage had two phases. During the first compensatory phase, systemic vascular conductance fell, heart rate rose, and mean arterial pressure fell by only about 7 mmHg. A second decompensatory phase supervened when cardiac output had fallen by about 50%. At this point systemic vascular conductance rose abruptly and arterial pressure fell to less than or equal to 40 mmHg. 4. Low 4th ventricular doses of naloxone (10-30 nmol) and DAMGO (30-100 pmol) had no discernible effect on the circulatory response to simulated haemorrhage. Higher doses of naloxone (30-100 nmol) and DAMGO (100-300 pmol) prevented the decompensatory phase. These high doses of naloxone and DAMGO lowered resting heart rate without affecting the other haemodynamic or respiratory variables. 5. Low doses of i.v. morphine (0.5-1.Spumolkg-1) also had no discernible effect on the circulatory response to simulated haemorrhage. Higher doses of morphine (1.5-5.Opmol kg 1) abolished the decompensatory phase. These high doses caused respiratory depression without affecting the resting haemodynamic variables. 6. The prevention of circulatory decompensation by high doses of DAMGO was reversed by 3-10nmol of naloxone in 3 out of 4 rabbits and by 10-30 nmol of naloxone in all 4 rabbits. The decompensatory phase was, however, prevented by the combined high doses of DAMGO (100-300pmol) and naloxone (30-100 nmol). 7. These findings provide strong evidence that activation of mu-opioid receptors in the central nervous system abolishes circulatory decompensation during acute reduction of central blood volume in conscious rabbits. This effect does not appear to be due to activation of arterial chemoreceptors or to a non-specific increase in sympathetic vasoconstrictor drive, since respiratory depression and hypertension were not observed after 4th ventricular doses of DAMGO which abolished circulatory decompensation. Our results also provide indirect confirmation of our previous finding that naloxone acts to prevent circulatory decompensation by an antagonist action at central delta-receptors.
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PMID:Effects of mu-opioid receptor agonists on circulatory responses to simulated haemorrhage in conscious rabbits. 216 31

Modulation of somatosympathetic reflexes at the spinal cord and the brainstem was studied by administering opioid receptor agonists into the intrathecal space of the lumbar spinal cord and into the subarachnoid space of the cisterna magna in rats anesthetized with alpha-chloralose and urethane. Somatocardiac sympathetic A- and C-reflexes were elicited by electrical stimulation of myelinated (A) and unmyelinated (C) afferent fibers of the tibial nerve, respectively. Intrathecal administration of the mu-opioid receptor agonist DAMGO selectively depressed the C-reflex in a dose-dependent manner (minimum effective dose 10 ng), whereas the intrathecal injection of the delta-opioid receptor agonist DPDPE and the kappa-opioid receptor agonist U-50,488H only at doses of 10 micrograms and 100 micrograms, respectively, led to a significant depression of the C-reflex. Injection of DAMGO into the cisterna magna enhanced both A- and C-reflexes in a dose-dependent manner (minimum effective dose 1 ng). The administration of neither DPDPE nor U-50,488H into the cisterna magna affected A- or C-reflexes. It is concluded that the activation of mu-opioid receptors is mainly or exclusively responsible for suppressing somatosympathetic C-reflexes at the spinal cord and for enhancing them at the brainstem.
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PMID:Modulation of somatocardiac sympathetic reflexes mediated by opioid receptors at the spinal and brainstem level. 758 6

1. Whole-cell calcium currents were recorded from visually identified inhibitory interneurones located in stratum radiatum (near the border with stratum lacunosum-moleculare) of area. CA1 in rat hippocampal slices. Current-voltage (I-V) relationships in relatively well-clamped neurones showed that inward current activated between -50 and -40 mV (holding potential, -80 mV) and was maximal near -10 mV. Currents showed little inactivation over the course of 85 ms steps, and were completely blocked by removal of Ca2+ or addition of Cd2+. Prominent low-threshold currents were not observed under these conditions. 2. The calcium channels contributing to whole-cell currents in interneurones were examined using selective channel antagonists. The selective N-type calcium channel blocker omega-conotoxin GVIA (omega-CgTX-GVIA; 10 microM) irreversibly blocked 23.2 +/- 2.8% of whole-cell currents. The P/Q-type antagonist omega-agatoxin IVA (omega-Aga-IVA; 1-5 microM) blocked 10.4 +/- 3.3% of whole-cell currents. Block by omega-Aga-IVA was highly variable, ranging from 0 to 30%. The less selective conotoxin, omega-conotoxin MVIIC (omega-CTX-MVIIC; 5 microM) blocked 31.0 +/- 2.7% of whole-cell currents. The selective L-type channel antagonist nifedipine (20 microM) blocked 27.5 +/- 3.5% of whole-cell currents. 3. Whole-cell calcium currents were reversibly inhibited by the selective GABA(B) receptor agonists (+/-)-baclofen or CGP 27492 (1-3 microM; 18.9 +/- 1.4%). This inhibition was reversed or prevented by the selective GABAB receptor antagonist CGP 55845A (1 microM). Inhibition of inward current activated by voltage ramps was voltage dependent, being greatest near -10 mV, and less pronounced at more positive or negative potentials. Inhibition of calcium currents by GABAB receptor agonists was accompanied by an apparent change in the kinetics of whole-cell currents consistent with a slowing of the rate of activation. CGP 27492 depressed calcium currents by 16.1 +/- 1.9% before application of omega-CgTX-GVIA, and by 3.9 +/- 2.0% after application of omega-CgTX-GVIA in the same cells (P < 0.005), consistent with preferential block of N-type calcium channels. 4. Neither adenosine (200 microM) nor the selective mu-opioid receptor agonist Tyr-D-Ala-Gly-MePhe-Gly-ol (DAMGO; 2 microM) inhibited calcium currents. Similarly, CGP 27492, but not adenosine or DAMGO, induced an outward current (at - 70 mV) consistent with activation of inwardly rectifying potassium channels. 5. These results indicate that hippocampal inhibitory neurones located in stratum radiatum possess multiple calcium channel subtypes, including N-type, L-type, and at least two other types of high-threshold channels. Activation of GABAB receptors (but not adenosine or mu-opioid receptors) preferentially inhibits N-type channels in these neurones. Similar inhibition occurring in the terminals of interneurones could contribute to depression of inhibitory synaptic transmission by activation of GABAB autoreceptors.
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PMID:High-threshold Ca2+ currents in rat hippocampal interneurones and their selective inhibition by activation of GABA(B) receptors. 873 May 88

1. Single pulse electrical field stimulation (EFS, 0.5 ms pulse width, 60 V at a frequency of 0.05 Hz) induced twitch contractions of mucosa-free circular muscle strips from the guinea-pig proximal colon which were abolished by atropine (0.3 microM), tetrodotoxin (0.3 microM) or omega-conotoxin GVIA (0.1 microM). 2. Various opioid receptor agonist concentration-dependently inhibited twitches with the following rank order of potency (EC50 values in brackets): U 50488 (0.31 nM) > dermorphin (4.3 nM) = dynorphin A (1-13) (6.2 nM) > [D-Ala2, N-MePhe4, Gly5-ol]-enkephalin (DAMGO, 33.5 nM) = [D-Ala2, D-Leu5]-enkephalin (DADLE, 60 nM) > [D-Pen2, D-Pen2, D-Pen5]-enkepahlin (DPDPE, 1144 nM). 3. Peptidase inhibitors (captopril, thiorphan and bestatin, 1 microM each) did not modify the amplitude of twitches. In the presence of peptidase inhibitors the concentration-response curve to dynorphin A (1-13) was displaced to the left to yield an EC50 of 0.35 nM, comparable to that of the selective kappa receptor agonist, U50488. The curves to the other opioid receptor agonist were unaffected by peptidase inhibitors. 4. DPDPE, DADLE, dermorphin and DAMGO consistently induced a concentration-unrelated transient increase in basal tone and a small and transient facilitation of twitches before development of their inhibitory effect. These transient excitatory effects were not observed upon application of dynorphin A (1-13) or U 50488. The contraction produced by DPDPE (30 nM) was largely inhibited (> 80%) by 1 microM atropine. 5. Twitches suppression induced by dynorphin A (1-13) (30 nM) was partly reversed (46 +/- 8%, n = 6) by naloxone (0.3 microM). The potent and selective kappa opioid receptor antagonist nor-binaltorphimine (Nor-BNI, 3-100 nM)) did not affect the amplitude of twitches and potently antagonized (pKB 9.83 +/- 0.09, n = 10) the inhibitory effect of dynorphin. 6. Naloxone (1-300 nM) concentration-dependently depressed the cholinergic twitches: this depressant effect was largely counteracted in the presence of apamin (0.1 microM) and NG-nitro-L-arginine (30 microM) which potentiated cholinergic twitches on their own. 7. Dynorphin A (1-13) (10 nM, n = 6) did not affect the contractile response to exogenous acetylcholine (1 microM), indicating that depression of evoked twitches occurs prejunctionally. 8. We conclude that multiple opioid receptors modulate cholinergic twitches in the circular muscle of guinea-pig proximal colon. While mu and delta opioid receptor agonists produced mixed excitatory and inhibitory effects, kappa opioid receptors, activated by sub-nanomolar concentrations of dynorphin A (1-13), mediate a powerful and pure prejunctional inhibition of acetylcholine release.
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PMID:Role of kappa opioid receptors in modulating cholinergic twitches in the circular muscle of guinea-pig colon. 892 49

Whole-cell voltage-clamp recording was used to examine the effects of mu-opioid receptor agonists DAGO (Tyr-D-Ala-Gly-MePhe-Gly-ol-enkephalin) and PL017 (Tyr-Pro-N-MePhe-D-Pro-NH2) on alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid (AMPA)-induced currents in acutely isolated spinal dorsal horn (DH) neurons from laminae I-IV of young rats. We found that the peak and steady-state amplitude of the AMPA-induced current were depressed by mu-opioid agonists (1 nM-5 microM) in a dose-dependent manner in about 80% of the tested cells. When experiments were performed using whole-cell perforated patch technique, similar depression of AMPA current was produced by mu-opioids. The mu-opioid receptor selective antagonist CTAP (100 nM) prevented or reduced the depressant effects of DAGO and PL017. Intracellular dialysis with guanosine 5'-O-(2-thiodiphosphate) (GDP-beta-S, 0.2 mM) significantly diminished the PL017-induced depression of AMPA responses. In addition, when the cells were dialyzed with guanosine 5'-O-(3-thiotriphosphate) (GTP-gamma-S, 0.1 mM) the amplitude and duration of the PL017-induced depression was significantly enhanced. Besides depressing the AMPA responses of DH cells, co-application of PL017 and kainic acid (KA) decreased the magnitude of the KA-induced current in 60% of the tested cells. These results indicate that in acutely isolated rat DH neurons, the activation of mu-opioid receptor inhibits AMPA-activated current through activation of a G-protein. This action may contribute to the regulation of the strength of the primary afferent neurotransmission including nociception.
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PMID:mu-Opioid receptor-mediated reduction of alpha-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid-activated current in dorsal horn neurons. 892 96

Effects of enkephalin and selective opioid-receptor agonists on GABA-induced current were examined in dissociated neurons of bullfrog dorsal root ganglia (DRG) by using whole-cell patch-clamp method. Leucine- (Leu)-enkephalin and methionine- (Met)-enkephalin depressed GABA(A) receptor-mediated currents. DPDPE, DAMGO and dynorphin-A (Dyn-A) also depressed the inward current produced by GABA; the order of agonist potency was DPDPE > DAMGO > Dyn-A. Naloxone blocked the inhibitory effects of enkephalins and other opioid agonists on the GABA current. Naltrindole (NTI), a delta-receptor antagonist, prevented the DPDPE-induced depression of the GABA current. beta-Funaltrexamine (beta-FNA), a mu-receptor antagonist, reduced the DAMGO-induced depression of GABA currents. Nor-binaltorphimine (nor-BNI), a kappa-receptor antagonist, reduced the effects of Dyn-A in depressing the GABA current. The results suggest that enkephalin down-regulates GABA(A) receptor function through mainly delta- and mu-opioid receptors in bullfrog DRG neurons.
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PMID:Opioid peptides modulate GABA(A) receptor responses in neurons of bullfrog dorsal root ganglia. 920 45

We compared the effects of three micro-(DAMGO, DALDA, TNPO) and three delta-(DPDPE, DELT, SNC-80) opioid agonists on arterial blood gas after IV administration in awake sheep. None of the mu agonists altered pO2, pCO2 or pH. All three mu agonists decreased pO2 increased pCO2 and decreased pO2, and this effect was not sensitive to naloxone or TIPPpsi, a delta-antagonist, suggesting that it is not mediated by beta-opioid receptors. When administered to pregnant animals, there were significant changes in fetal pCO2 and pH. It may be possible to develop delta-selective opioid agonists which do not produce respiratory depression.
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PMID:Respiratory depression after intravenous administration of delta-selective opioid peptide analogs. 1009 30

1. Using whole-cell patch clamp recording from neurones in an in vitro slice preparation, we have examined opioid- and orphanin FQ (OFQ)-mediated modulation of synaptic transmission in the rat arcuate nucleus and ventromedial hypothalamus (VMH). 2. Application of OFQ activated a Ba2+-sensitive and inwardly rectifying K+ conductance in approximately 50 % of arcuate nucleus neurones and approximately 95 % of VMH neurones. The OFQ-activated current was blocked by the nociceptin antagonist [Phe1Psi(CH2NH)Gly2]-nociceptin(1-13) NH2 (NCA), a peptide that on its own exhibited only weak agonist activity at high concentrations (> 1 microM). Similar current activation was observed with the mu agonist DAMGO but not delta (DPDPE) or kappa (U69593) agonists. 3. In arcuate nucleus neurones, DAMGO (1 microM), U69593 (1 microM) and OFQ (100 nM to 1 microM) but not DPDPE (1 microM) were found to depress the amplitude of electrically evoked glutamatergic postsynaptic currents (EPSCs) and decrease the magnitude of paired-pulse depression, indicating that opioid receptors were located presynaptically. 4. In VMH neurones, DAMGO strongly depressed the EPSC amplitude in all cells examined. DAMGO decreased the magnitude of paired-pulse depression, indicating that mu receptors were located presynaptically. U69593 weakly depressed the EPSC while OFQ and DPDPE had no effect. 5. In VMH neurones, DAMGO depressed the frequency of miniature EPSCs (-58 %) in the presence of tetrodotoxin and Cd2+ (100 microM), suggesting that the actions of mu receptors could be mediated by an inhibition of the synaptic vesicle release process downstream of Ca2+ entry. 6. The data presented show that presynaptic modulation of excitatory neurotransmission in the arcuate nucleus occurs through mu, kappa and the orphan opioid ORL-1 receptors while in the VMH presynaptic modulation only occurs through mu opioid receptors. Additionally, postsynaptic mu and ORL-1 receptors in both the arcuate nucleus and VMH modulate neuronal excitability through activation of a K+ conductance.
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PMID:Pre- and postsynaptic actions of opioid and orphan opioid agonists in the rat arcuate nucleus and ventromedial hypothalamus in vitro. 1033 93

The function of kappa receptor-mechanisms in bulbar respiratory network was investigated in decerebrate cats. Intravenous injection of U-50488 (0.3-3.0 mg/kg) dose-dependently decreased the phrenic nerve discharge and shortened inspiration and expiration. U-50488 caused hyperpolarization, and decreased input resistance and the action potential discharge in respiratory neurons. The effects of U-50488 were antagonized by nor-binaltorphimine. DAMGO (0.3 mg/kg, i.v.) decreased the phrenic discharge and prolonged inspiration and expiration. U-50488 partially reversed the respiratory depression induced by DAMGO. These results suggest that the activation of K receptors by itself depresses the central respiratory activity, while it opposes the mu receptor-mediated respiratory depression.
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PMID:Effects of a kappa-receptor agonist U-50488 on bulbar respiratory neurons and its antagonistic action against the mu receptor-induced respiratory depression in decerebrate cats. 1182 53

Mu-opioid receptor agonists depress tidal volume, decrease chest wall compliance, and increase upper airway resistance. In this study, potential neuronal sites and mechanisms responsible for the disturbances were investigated, dose-response relationships were established, and it was determined whether general anesthesia plays a role. Effects of micro-opioid agonists on membrane properties and discharges of respiratory bulbospinal, vagal, and propriobulbar neurons and phrenic nerve activity were measured in pentobarbital-anesthetized and unanesthetized decerebrate cats. In all types of respiratory neurons tested, threshold intravenous doses of the micro-opioid agonist fentanyl slowed discharge frequency and prolonged duration without altering peak discharge intensity. Larger doses postsynaptically depressed discharges of inspiratory bulbospinal and inspiratory propriobulbar neurons that might account for depression of tidal volume. Iontophoresis of the micro-opioid agonist DAMGO also depressed the intensity of inspiratory bulbospinal neuron discharges. Fentanyl given intravenously prolonged discharges leading to tonic firing of bulbospinal expiratory neurons in association with reduced hyperpolarizing synaptic drive potentials, perhaps explaining decreased inspiratory phase chest wall compliance. Lowest effective doses of fentanyl had similar effects on vagal postinspiratory (laryngeal adductor) motoneurons, whereas in vagal laryngeal abductor and pharyngeal constrictor motoneurons, depression of depolarizing synaptic drive potentials led to sparse, very-low-frequency discharges. Such effects on three types of vagal motoneurons might explain tonic vocal fold closure and pharyngeal obstruction of airflow. Measurements of membrane potential and input resistance suggest the effects on bulbospinal Aug-E neurons and vagal motoneurons are mediated presynaptically. Opioid effects on the respiratory neurons were similar in anesthetized and decerebrate preparations.
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PMID:Mu-opioid receptor agonist effects on medullary respiratory neurons in the cat: evidence for involvement in certain types of ventilatory disturbances. 1461 98

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