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)

Effects of the drugs affecting monoaminergic neurotransmission were examined on the spinal polysynaptic reflex (PSR) in anesthetized spinal rats. Chlorpromazine HCI (0.5-2.0 mg/kg, i.v.) and baclofen (0.63-2.5 mg/kg) depressed and imipramine HCI (1.25-5.0 mg/kg) increased the amplitude of PSR in acute spinal animals, recorded as evoked electromyogram in the gastrocnemius muscle by electrical stimulation of the common peroneal nerve. However, chlorpromazine and imipramine showed effects neither on PSR in chronic spinal rats, nor in acute spinal rats with the intracisternal administration of 6-hydroxydopamine, which caused depletion of the spinal noradrenaline, dopamine and serotonin, and selective depletion of the spinal noradrenaline, respectively. Baclofen depressed the amplitude of PSR in both preparations with almost the same potency as that in acute spinal ones. Imipramine HCI (2.5 mg/kg, i.v.), chlorpromazine HCI (1.0 mg/kg) and baclofen (1.25 mg/kg) depressed the mono- and polysynaptic heights of the ventral root potentials in acute spinal rats. However, their depression of polysynaptic height was not so strong. These observations strongly suggest that, at the receptor sites on spinal interneurons where the descending monoaminergic neurons terminate, spinal monoamines, especially noradrenaline, are involved in PSR modification by chlorpromazine and imipramine, but not in PSR depression by baclofen.
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PMID:Effects of chlorpromazine, imipramine and baclofen on the spinal polysynaptic reflex in acute, chronic and 6-hydroxydopamine-treated spinal rats. 681 74

1 The effects of baclofen have been examined on responses of neurones in the spinal cord of the anaesthetized cat to stimulation of appropriate synaptic pathways, acetylcholine and a range of amino acid excitants. Baclofen and excitant substances were administered by standard microiontophoretic techniques. 2 Small ejecting currents of baclofen (less than 10 nA) depressed non-cholinergic, excitatory, synaptic responses evoked by stimulation of dorsal roots or muscle or cutaneous afferents. Excitatory monosynaptic responses were particularly sensitive to the depressant action of baclofen. 3 Spontaneous firing in neurones was sometimes reduced in parallel with synaptic excitatory responses, but synaptically evoked inhibition was unaffected and ventral root evoked excitation of Renshaw cells was either unaffected or enhanced by baclofen. 4 Ejecting currents of baclofen which markedly depressed excitatory synaptic responses either had no effect or minimal depressant effects on responses induced by iontophoretically administered acetylcholine and excitant amino acids. However, relatively large currents of baclofen (e.g. 20 to 40 nA) reduced excitatory responses to exogenously administered excitants. 5 It is suggested that baclofen depresses (a) synaptic response by an action on excitatory nerve terminals and (b) responses to exogenous excitants via a postsynaptic action. 6 Comparison of baclofen with a number of other substances indicates that the depression of noncholinergic, excitatory, synaptic responses is unlikely to involve an interaction of this agent with receptors for monoamines, 5-hydroxytryptamine or the inhibitory amino acids, gamma-aminobutyric acid and glycine.
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PMID:Selective depression of synaptic excitation in cat spinal neurones by baclofen: an iontophoretic study. 721 3

1. The effects of the GABAB receptor agonists, baclofen and 3-aminopropylphosphinic acid (3-APPi) given by the subcutaneous or intracerebroventricular (i.c.v.) route were examined on minute ventilation (V), tidal volume (VT) and respiratory rate (f) due to room air and carbon dioxide (CO2)-enriched gas hyperventilation in conscious guinea-pigs. 2. Baclofen (0.3-10 mg kg-1, s.c.) produced a dose-dependent inhibition of V and f due to room air and CO2 inhalation. The maximum inhibition of room air breathing V was 85% +/- 3 and f was 74% +/- 3 at 10 mg kg-1, s.c. The maximum effects on CO2-induced hyperventilation were 68% +/- 9 and 51% +/- 6, for V and f respectively. Only the highest dose of baclofen studied (10 mg kg-1) produced a significant inhibition of VT due to room air breathing (46% +/- 6) and CO2 breathing (38% +/- 11). 3. 3-APPi (0.3-100 mg kg-1, s.c.) did not affect V, VT or f due to room air breathing or CO2 inhalation at any dose tested. Also, i.c.v. administration of 3-APPi (100 micrograms) did not affect ventilatory responses due to room air breathing or CO2 inhalation. 4. Pretreatment with the GABAB antagonist, CGP 35348 3-aminopropyl-(diethoxymethyl) phosphinic acid (3-30 mg kg-1, s.c.) blocked the respiratory depressant effects of baclofen (3 mg kg-1, s.c.) in a dose-related fashion. 5. Intracerebroventricular (i.c.v.) administration of CGP 35348 (50 micrograms) blocked the respiratory depressant effects of baclofen. CGP 35348 given alone either i.c.v. or s.c. had no effects on respiration due to room air or CO2 inhalation.6. Pretreatment with either the GABAA antagonist bicuculline (30 mg kg-1, s.c.) or the opioid antagonist, naloxone (1 mg kg-1, s.c.) had no effect on the respiratory depressant action of baclofen(3 mg kg-1, s.c.).7. These results show that baclofen inhibits ventilation due to room air breathing, and attenuates the hyperventilation response to CO2 inhalation. The peripherally acting GABAB agonist, 3-APPi had no effect on ventilation. These findings demonstrate that the respiratory depressant effects of baclofen are due to activation of CNS GABAB receptors and indicates that only GABAB receptor agonists that penetrate into the CNS may cause respiratory depression.
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PMID:Respiratory effects of baclofen and 3-aminopropylphosphinic acid in guinea-pigs. 777 31

1. The effects of the K+ channel blocker 9-amino-1,2,3,4-tetrahydroacridine (THA) on the actions of baclofen and gamma-aminobutyric acid (GABA) at post- and presynaptic GABAB receptors were studied with whole-cell voltage-clamp recording in area CA3 of rat hippocampal slices. 2. The effect of THA on postsynaptic GABAB receptor-mediated responses was studied in neurons perfused internally with potassium gluconate and guanosine triphosphate (GTP). At a holding potential of -70 mV, the GABAB receptor agonist (+/-)-baclofen (30 microM) induced an outward current and increased membrane conductance. In the presence of the excitatory amino acid receptor antagonists 6,7-dinitroquinoxaline-2,3-dione (DNQX) and (+/-)-2-amino-5-phosphonovalerate (APV), stimulation in stratum pyramidale or proximal stratum radiatum evoked GABAA receptor-mediated, fast monosynaptic inhibitory postsynaptic currents (IPSCs) and GABAB receptor-mediated, late monosynaptic IPSCs. THA (0.3 mM) blocked the baclofen-induced current and conductance increase and GABAB receptor-mediated IPSCs. 3. The effect of THA on presynaptic GABAB receptor-mediated responses was studied in neurons perfused internally with Cs+ and lidocaine N-ethyl bromide (QX-314), which blocked post-synaptic GABAB receptor-mediated responses. Stimulation in the presence of DNQX and APV evoked GABAA receptor-mediated IPSCs; when pairs of stimuli were delivered 200 ms apart the second IPSC was depressed. Baclofen reversibly depressed IPSCs, and partially occluded paired-pulse depression of IPSCs. The GABAB receptor antagonist CGP 35348 (0.5-1.0 mM) reversed baclofen-induced depression of IPSCs and partially blocked paired-pulse depression. Baclofen-induced and paired-pulse depression of IPSCs were not by affected by THA (0.3 mM). 4. Baclofen reversibly decreased the amplitude and frequency of spontaneous monosynaptic IPSCs (sIPSCs). Depression of sIPSCs by baclofen was unchanged by THA. 5. These results indicate that THA blocks the actions of baclofen and GABA at post- but not presynaptic GABAB receptors. We conclude that post- and presynaptic GABAB receptors in area CA3 of the rat hippocampus couple to different effector mechanisms; postsynaptic GABAB receptors activate THA-sensitive K+ channels, and presynaptic GABAB receptors decrease neurotransmitter release through a THA-insensitive mechanism.
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PMID:Discrimination of post- and presynaptic GABAB receptor-mediated responses by tetrahydroaminoacridine in area CA3 of the rat hippocampus. 809 43

1. Activity-dependent depression (fading) of polysynaptic inhibition and the effects of this disinhibition on signal transmission were studied in the dentate gyrus of the rat hippocampal slice with the use of intracellular and extracellular recordings. 2. Polysynaptic inhibitory postsynaptic potentials/currents (IPSP/Cs) were evoked in dentate granule cells by stimulation of mossy fibers in stratum lucidum of area CA3b/c. These mossy fiber-evoked IPSP/Cs consisted of an early GABAA receptor-mediated component (IPSP/CA) and a late GABAB receptor-mediated component (IPSP/CB). 3. When paired stimuli were delivered 200 ms apart under voltage clamp, the amplitude of the IPSCA and IPSCB evoked by the second stimulus was reduced by 37.0 +/- 4.0 and 61.6 +/- 7.8% (mean +/- SE), respectively. Paired-pulse depression of both IPSCA and IPSCB was greatest at interstimulus intervals of 100-400 ms with a maximal effect when stimuli were delivered 200 ms apart. 4. (+/-) Baclofen, a GABAB receptor agonist, suppressed both components of the mossy fiber-evoked IPSP in a concentration-dependent fashion. At a concentration that only partially suppressed the initial IPSP, baclofen occluded paired-pulse depression of IPSPA. In addition, paired-pulse depression of IPSPA was blocked in a concentration-dependent fashion by 2-hydroxy-saclofen (10-400 microM), a GABAB receptor antagonist. 5. The contribution of the IPSPB conductance increase to paired-pulse depression of IPSPA was evaluated. Paired-pulse depression of IPSPA was significantly greater than was the depression of the response to a current pulse delivered 200 ms after the mossy fiber stimulus. In addition, injection of granule cells with GTP gamma S, a nonhydrolyzable guanosine triphosphate (GTP) analogue, occluded both IPSPB as well as the effects of baclofen on the granule cell membrane by activating G proteins but did not reduce paired-pulse depression of IPSPA or suppression of IPSPA by baclofen. Finally, examination of the first and second IPSCA evoked by paired stimuli 200 ms apart revealed no significant differences in response kinetics. Taken together, these results indicate that postsynaptic GABAB receptors on the granule cells are not responsible for paired-pulse depression of IPSPA. 6. Monosynaptic IPSPs were evoked by direct stimulation of inhibitory neurons in the inner molecular layer of the dentate gyrus during pharmacological blockade of excitatory transmission with D(-)-2-amino-5-phosphonovaleric acid (D-APV), an N-methyl-D-aspartate (NMDA) receptor antagonist and 6,7-dinitroquinoxaline-2,3-dione (DNQX), a non-NMDA glutamate receptor antagonist.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:GABAB autoreceptors mediate activity-dependent disinhibition and enhance signal transmission in the dentate gyrus. 809 39

We examined the effects of GABAB receptor activation in the dentate gyrus of hippocampal slices prepared from 6-8-day-old rat pup. Baclofen (0.25-1.0 microM), a GABAB agonist, rapidly and potently disinhibited the developing dentate, similar to its effect in the mature organism. CGP 35348, a GABAB antagonist, quickly reversed the baclofen-induced disinhibition. However, GABAB antagonists did not reverse long-latency (500-1000 ms IPI) paired-pulse depression, suggesting that it is not caused by a late GABAB-mediated IPSP. GABAB-mediated disinhibition of the dentate gyrus can occur by postnatal day 6, providing a powerful mechanism for altering excitability in the developing hippocampus.
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PMID:The development of GABAB-mediated activity in the rat dentate gyrus. 817 35

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

Whole-cell current-and voltage-clamp recordings were made from deep nuclear neurons in cerebellar slices from seven- to nine-day-old rats. Baclofen, a GABAB agonist, produced a slow postsynaptic hyperpolarization associated with a decrease in input resistance. The hyperpolarization was G-protein-dependent, blocked by intracellular Cs+ and antagonized by CGP 35348, a GABAB antagonist. In dialysed neurons recorded with Cs+ -containing pipettes, baclofen suppressed deep nuclear neuronal inhibitory postsynaptic potentials and inhibitory postsynaptic currents evoked by electrical stimulations of the Purkinje cell axons. This effect was blocked by CGP 35348, indicating that the suppressions were mediated by presynaptic GABAB receptors. The inability of CGP 35348 or uptake inhibitors (nipecotic acid and NO-711) to alter the decay of inhibitory postsynaptic currents evoked by maximal stimulation suggested that GABAB receptors are not activated by the stimulation of the GABAergic input. Paired-pulse depression of inhibitory postsynaptic currents was not blocked by CGP 35348. Moreover, neither uptake inhibitors nor CGP 35348 produced any significant changes to the whole-cell current produced by a tetanic stimulation of Purkinje cell axons, suggesting that GABAB autoreceptors were also not activated by endogenous GABA release. Our findings indicate that while pre- and postsynaptic GABAB receptors are present in the deep nuclei of the rat cerebellum, they are not activated by electrical stimulation of the Purkinje cell axons.
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PMID:Pharmacological characterization of pre- and postsynaptic GABAB receptors in the deep nuclei of rat cerebellar slices. 854 87

Paired-pulse field responses were recorded from the granule cell layer of the dentate gyrus in brain slices from temporal lobe epileptic patients. Paired-pulse depression (PPD) was examined using perforant path stimulation of low to moderate intensity at an inter-stimulus interval (ISI) of 20 ms. The paired-pulse ratio (PS2/PS1) was expressed as the population spike amplitude of the second response (PS2) relative to that of the first response (PS1). Representative tissue response from each patient biopsy were divided into two groups that were significantly different based on the magnitude of the highest paired-pulse ratio recorded for each biopsy specimen: the strong paired-pulse depression group (PS2/PS1 = 0.12 +/- 0.03; n = 15) and the weak paired-pulse depression group (PS2/PS1 = 0.68 +/- 0.06; n = 13). Paired-pulse ratios from the strong PPD group were relatively independent of stimulus intensity, whereas, PPD was dependent on stimulus intensity in the weak PPD group; i.e., PPD was greatest at the lowest intensity and reached a plateau at higher intensities. Bicuculline (20 microM) and low concentrations of baclofen (0.1-0.2 microM) reduced paired-pulse depression in the strong PPD group, but did not significantly change the paired-pulse ratio in the weak PPD group. Paired-pulse facilitation was observed in some cases after inhibition was blocked pharmacologically. The number of population spikes was increased in the presence of bicuculline but was unchanged by baclofen. In the strong PPD group, baclofen significantly altered the EPSP-population spike (E-S) relationship by increasing the slope of the relationship for the second response, without having an effect on the slope of the first response. Baclofen had no effect on the E-S relationship of either response in the weak PPD group. The data are consistent with (1) less inhibition in the weak PPD group compared to the strong PPD group, (2) reduction of feedback inhibition in the strong PPD group by bicuculline and by low concentrations of baclofen, and (3) the occurrence of paired-pulse facilitation when inhibition was pharmacologically reduced in the dentate gyrus of temporal lobe epileptic patients. The results are also consistent with the presence of GABAB receptors on human inhibitory interneurons that, when activated by baclofen, result in disinhibition of granule cells through feedback circuits. Although inhibition may be compromised in some epileptic human biopsy specimens, the presence of strong inhibition in other patients' biopsy material suggest the re-evaluation of the role of inhibition in epilepsy.
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PMID:Effects of bicuculline and baclofen on paired-pulse depression in the dentate gyrus of epileptic patients. 855 27

Whole-cell patch-clamp recording of GABAergic inhibitory postsynaptic currents (IPSCs) were made in ventral horn neurons of neonatal rat lumbar spinal cord in slice. In contrast to the hippocampus where paired pulse depression is reported to be observed for GABAergic IPSCs, double pulse stimulation of GABAergic inputs resulted in enhancement in the amplitude of the second IPSC in the spinal ventral horn. The facilitation ratio was decreased during enhanced synaptic transmission by increasing Ca2+ concentration in the external recording solution. Baclofen and adenosine. which are reported to depress synaptic transmission by presynaptic mechanisms, depressed IPSCs and increased the facilitation ratio. A postsynaptic manipulation such as application of bicuculline or changing the driving force did not affect the facilitation ratio. These results suggest that paired pulse facilitation of GABAergic IPSCs observed in neonatal rat spinal ventral horn appears to be based upon a mechanism similar to that underlying frequency-dependent facilitation of excitatory synaptic transmission, and is sensitive to presynaptic changes in synaptic strength.
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PMID:Paired pulse facilitation of GABAergic IPSCs in ventral horn neurons in neonatal rat spinal cord. 873 25


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