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 influence of naloxone on the duration of the postictal depression was determined in 2 seizure models in the adult rats: hippocampal afterdischarges and maximal electroshock. For testing the intensity of postictal depression 2 subsequent stimulations were used. The interstimulation intervals were 3, 5, 10 and 60 min. Using interstimulation intervals 3, 5 and 10 min there was marked depression of the afterdischarge duration. Wet dog shakes accompanying hippocampal afterdischarges were suppressed only in 3- and 5-min intervals. Naioxone (1 mg/kg i.p.) abolished the suppression of afterdischarges when 10-min interstimulation interval was used. In maximal electroshock seizures where the duration of tonic flexion and extension was determined, no postictal depression was registered nor were any effects of naloxone present. The results suggest a limited role of the mu opioid receptor system in the late phases of postictal depression following hippocampal stimulation and different effects of the mu opioid system in tonic flexion/extension and behavioral depression induced by maximal electroshock.
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PMID:Differential effects of naloxone on postictal depression. 152 27

The relationship between analgesic activity, measured as the hot plate reaction time, and respiratory depression, measured as ventilatory frequency, was investigated in mice for a variety of mu opioid receptor agonists with differing selectivities for mu receptors compared with delta receptors. There was a weak correlation between analgesia and respiratory depression for opioids with the greatest selectivity for mu opioid receptors compared with delta receptors, such as alfentanil. The strength of the correlation increased for opioids which had greater delta receptor activity, such as morphine and fentanyl. Etorphine, which has almost equal affinity for mu, delta and, incidentally, kappa receptors, showed a strong correlation between analgesia and respiratory depression. We conclude that the predictability of the degree of respiratory depression produced by a given analgesic dose of an opioid appears to decrease with its selectivity for mu opioid receptors, at least in the mouse.
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PMID:Relationship between analgesia and respiratory depression for mu opioid receptor agonists in mice. 168 79

The effects of i.c.v. administered dermorphin, a highly selective mu-opioid agonist, on cardiac function and renal, mesenteric and hindquarter blood flow were studied in conscious rats. Core temperature, blood gases, arterial plasma levels of norepinephrine, epinephrine, dopamine, 3,4-dihydroxyphenylalanine and dihydroxyphenylacetic acid (DOPAC) also were examined. Cardiac output was measured using a thermodilution technique and regional blood flows using directional pulsed Doppler velocimetry. Dermorphin, at doses of 0.1-100 nmol/kg, increased blood pressure and hindquarter blood flow, renal and mesenteric resistance, and core temperature. Higher doses (1-5 mumol/kg) caused respiratory depression, acidosis, and shock despite profound sympatho-adrenomedullary stimulation. Circulating levels of catecholamines were significantly increased at the dermorphin doses of 0.1-100 nmol/kg. At the 100 nmol/kg dose, plasma levels of epinephrine, norepinephrine, the dopamine metabolite dihydroxyphenylacetic acid and the catecholamine precursor 3,4-dihydroxyphenylalanine were increased by 2-15-fold. The data indicate that mu opioid receptor stimulation exerts potent effects on cardiorespiratory functions, activates the sympathoadrenomedullary system and produces a pattern of blood flow changes consistent with the stress-induced "defense" response (skeletal muscle vasodilation and splanchnic vasoconstriction). Excessive mu opioid receptor stimulation leads to shock due to respiratory and hemodynamic collapse.
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PMID:Mechanisms of central hemodynamic and sympathetic regulation by mu opioid receptors: effects of dermorphin in the conscious rat. 256 68

Intracellular recordings were made from neurons of the rat locus coeruleus contained within a brain slice maintained in vitro. When applied to the slice in known concentrations the selective kappa opioid receptor agonist trans-(+)-3,4-dichloro-N-methyl-[2-(1-pyrrolidinyl)cyclohexyl] benzeneacetamide methane sulphonate (U50488) (0.01-1 microM) produced a concentration-dependent depression of the excitatory post-synaptic potential evoked by electrical stimulation of afferent inputs to the locus coeruleus. This effect was antagonized by naloxone with an apparent dissociation equilibrium constant (Kd) of 28 nM. U50488 did not completely abolish the EPSP. Over the same concentration range U50488 had no effect on the resting membrane potential, input resistance or action potential waveform of locus coeruleus neurons, nor did U50488 depress the depolarization produced by local application of L-glutamic acid. The mu opioid receptor agonists [D-Ala2, NMe Phe4, Gly-ol5] enkephalin (0.003-1 microM) and [D-Ala2, NMe Phe4, Met(O)5] enkephalinol (0.003-1 microM) caused a membrane hyperpolarization concomitant with a fall in neuronal input resistance. These effects were concentration-dependent and antagonized by naloxone with an apparent Kd of 1.5 nM. Mu agonists also caused a depression of the tetrodotoxin resistant action potential. An in vitro autoradiographic study of [3H]bremazocine binding within the locus coeruleus revealed that, although the majority of binding appears to be to mu sites, a significant proportion was displaceable by unlabelled U50488 and thus represented kappa binding sites. The possibility that kappa opioid receptors may be located pre-synaptically within the locus coeruleus, and that activation of these receptors depresses excitatory synaptic input, is discussed.
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PMID:Kappa opioid receptor activation depresses excitatory synaptic input to rat locus coeruleus neurons in vitro. 303 41

The roles of mu, delta and kappa opioid receptor subtypes in spinal morphine-induced antinociception were investigated. A C-fiber reflex elicited by electrical stimulation within the territory of the sural nerve was recorded from the ipsilateral biceps femoris muscle in anesthetized rats. Recruitment curves were built by varying the stimulus intensity from 0 to 7x threshold and temporal evolutions were studied by using a constant level of stimulus intensity (3x threshold). Intrathecal administration of naloxone, Cys2-Tyr3-Orn5-Pen7 amide (mu opioid receptor antagonist) and nor-binaltorphimine (nor-BNI, a kappa opioid receptor antagonist) completely antagonized the depression of the C-fiber reflex induced by 4 nmol of intrathecal morphine, whereas the antagonistic effect of naltrindole (a delta receptor antagonist) was limited, with a ceiling effect of 56%. The AD50 were 12 pmol and 1, 4.3 and 39 nmol for Cys2-Tyr3-Orn5-Pen7 amide, naloxone, nor-BNI and naltrindole, respectively. When injected alone, only naltrindole induced a short-duration depressive effect. Intrathecal administration of DAGO resulted in a depressive effect on the C-fiber reflex in a dose-dependent manner; for a stimulus intensity of 3x threshold, the ED50 was 9 pmol. DAGO was found to be 60 times more potent than morphine. Interestingly, nor-BNI, at doses which reversed the blockade of the C-fiber reflex by morphine, also reversed the effects of an equipotent dose of DAGO, which suggested an action on a mu receptor subtype.
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PMID:Effects of mu, delta and kappa opioid antagonists on the depression of a C-fiber reflex by intrathecal morphine and DAGO in the rat. 791 73

The mu (mu) opioid receptors, which mediate the effects of morphine, are widely distributed in brain. We have examined the distribution of mRNA encoding a mu opioid receptor in rat brain with in situ hybridization histochemistry at the single-cell level to obtain information about the cell types synthesizing this receptor. Only neurons, not glia, were labeled in discrete brain regions. High levels of labeling were detected in the thalamus, striosomes of the caudate-putamen, globus pallidus, and brain regions involved in nociception, arousal, respiratory control, and, possibly, addiction. The general distribution of the receptor mRNA paralleled that of mu opioid binding sites with some notable exceptions. These include the cerebral cortex, which contains binding sites, but very few labeled neurons. No labeling was observed in the cerebellum, a region devoid of mu binding sites. Three main findings emerged from these experiments: 1) the mRNA was present in regions mediating both the therapeutic (analgesia) and the unwanted (respiratory depression, addiction) effects of morphine, 2) the mRNA was very densely expressed by neurons known to receive dense enkephalin-containing inputs, and 3) the dissociation between the presence of binding sites and absence of mRNA in some brain regions supports a presynaptic localization of mu opioid receptors in these areas. Alternatively, other subtypes of mu opioid receptors may be encoded by a different mRNA. These results provide new insights into the receptor types and neuronal circuits involved in the effects of endogenous opioids and morphine.
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PMID:Expression of mu opioid receptor mRNA in rat brain: an in situ hybridization study at the single cell level. 808 77

Release of GABA from the terminals of hippocampal inhibitory neurons is inhibited by activation of GABAB autoreceptors and mu opioid receptors. However, it is not known whether these presynaptic processes affect all inhibitory synapses equally. We examined the effects of the GABAB receptor agonist baclofen and the mu opioid receptor agonist DAGO on postsynaptic currents evoked by minimal stimulation of inhibitory fibers (meIPSCs) in area CA3. Baclofen reversibly depressed approximately half of the meIPSCs evoked in the stratum pyramidale. The remaining meIPSCs were unaffected despite a coincident depression of spontaneous IPSCs. In contrast, all meIPSCs were depressed by DAGO. In addition, minimal stimulation in the stratum radiatum evoked meIPSCs that were always depressed by baclofen. These results indicate that regulation of GABA release by GABAB autoreceptors occurs at a subset of inhibitory synapses and that GABAB-resistant inhibitory synapses are located on pyramidal neuron somata. Hippocampal inhibitory neurons may be heterogeneous with respect to presynaptic receptor-mediated regulation of GABA release.
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PMID:Heterogeneity in presynaptic regulation of GABA release from hippocampal inhibitory neurons. 827 77

Ventilation, oxygen consumption, the ventilatory equivalent for oxygen, and ventilatory responses to hypoxia and to hypercapnia were evaluated in conscious male rats who received each of four treatments: (1) microinjection of artificial cerebrospinal fluid (aCSF) into the arcuate nucleus and subcutaneously saline (CS); (2) aspartic acid into the arcuate nucleus and saline subcutaneously (AS); (3) aCSF into the arcuate nucleus and naloxone subcutaneously (CN); and (4) aspartic acid into the arcuate nucleus and naloxone subcutaneously (AN). Rats treated with CN exhibited a depression of ventilation, ventilatory equivalent, ventilatory response to hypercapnia, and tidal volume response to hypoxia and to hypercapnia. AS had no effect on any parameters. Administration of both aspartic acid and naloxone attenuated all the effects of CN except the depression of minute ventilation in response to hypercapnia. Therefore the naloxone (a mu opioid receptor antagonist) induced a depression of ventilation that was attenuated by aspartic acid acting on N-methyl-D-aspartic acid receptors in the arcuate nucleus.
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PMID:Aspartic acid in the arcuate nucleus attenuates the depressive effects of naloxone on ventilation. 986 84

The major side effect of morphine and its active metabolite, morphine-6-glucuronide (M6G), is respiratory depression, which is mediated by mu opioid receptors in the medulla and pons. Although the effect of morphine on coupling between mu opioid receptors and G proteins has been studied, the effect of M6G on this coupling has not. Therefore, stimulation of guanylyl-5'-O-([gamma(35)S]-thio)-triphosphate ([(35)S]-GTPgammaS) binding by these two narcotic analgesic drugs was compared to the mu-specific synthetic opioid peptide [D-Ala(2), N-MePhe(4), Gly-ol(5)]enkephalin in Chinese hamster ovarian cells stably transfected with the murine mu opioid receptor and in brainstem membranes prepared from 3-, 7-, and 14-day-old guinea pigs. All three agonists stimulated [(35)S]-GTPgammaS binding in transfected cells and neural tissue, and the stimulation was antagonized by naloxone. In brainstem membranes, but not transfected cells, M6G was less efficacious but more potent than morphine, which may be due to differences between murine and guinea pig mu opioid receptors or in the G proteins in these two tissues. Efficacy of the agonists did not change during development, but overall potency decreased between 3 and 14 days after birth. In vivo potency differences for respiratory depression between morphine and M6G are qualitatively similar to in vitro potency differences of these drugs to stimulate [(35)S]-GTPgammaS binding in neonatal guinea pig brainstem membranes. Tolerance to opioid effects on [(35)S]-GTPgammaS binding developed in transfected cells incubated with morphine with the maximum decrease in potency occurring 18 h later than the maximum decline in efficacy.
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PMID:Mu opioid receptor efficacy and potency of morphine-6-glucuronide in neonatal guinea pig brainstem membranes: comparison with transfected CHO cells. 1139 39

The present available opioid receptor antagonists such as naloxone and naltrexone are not highly receptor selective. They may antagonize mu opioid receptors to affect the pain threshold of the patients with traumatic shock while they exert antishock effects. Therefore, they are not suitable for traumatic shock. It is very important to elucidate the subclass of opioid receptors that are closely associated with cardiovascular depression of traumatic shock and then choose their specific receptor antagonists to treat it. Traumatic shock was used in pentobarbital-anesthetized Wistar rats by right femur fracture plus hemorrhage (fixed hemorrhage at a rate of 20 mL/kg in experiment 1 or hemorrhage to 40 mmHg mean arterial blood pressure for 60 min in experiments 2 and 3), and the changes of myocardial and brain opioid receptors after traumatic shock, the antagonizing effects of mu, delta, and kappa opioid receptor antagonists on the cardiovascular depression of traumatic shock and the antishock effects of delta and kappa opioid receptor antagonists ICI174,864 and Nor-binaltorphimine (Nor-BNI) were observed. The results indicate that after traumatic shock, the number of myocardial and brain delta and kappa opioid receptors were significantly increased that were significantly associated with the decreased cardiovascular functions. mu Opioid receptors in the heart and brain did not change significantly. Intracerebral ventricular administration of ICI174,864 and Nor-BNI significantly antagonized the decreased cardiovascular function after traumatic shock and increased the survival rate of traumatic shock rats, but mu opioid receptor antagonist beta-funaltrexamine did not. Meanwhile, intravenous administration of delta and kappa opioid receptor antagonists ICI174,864 and Nor-BNI also significantly increased the mean arterial blood pressure, improved the hemodynamic parameters, and prolonged the survival rate of traumatic shock rats. These findings suggest that opioid receptors are involved in the cardiovascular depression of traumatic shock, and the subclass receptors are mainly delta and kappa opioid receptors. delta and kappa opioid receptor antagonists have good beneficial effects on traumatic shock.
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PMID:Subclass opioid receptors associated with the cardiovascular depression after traumatic shock and the antishock effects of its specific receptor antagonists. 1624 34


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