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)

The intravenous administration of relatively low doses of ethanol (0.25-2.00 g/kg) produced a dose-dependent inhibition of the firing rate of the neurons located in the substantia nigra, pars reticulata (PR neurons). This effect was eliminated both by picrotoxin and bicuculline, two blockers of gamma-aminobutyric acid (GABA) transmission, and potentiated by muscimol (a direct GABA agonist) and diazepam (a representative of the benzodiazepine class which facilitate GABA transmission). The specific benzodiazepine antagonist, Ro 15-1788, blocked the potentiating effect of diazepam on the ethanol effect but failed to antagonize ethanol-induced inhibition of the firing rate of the neurons. These results indicate that ethanol might inhibit the firing of PR neurons through a GABAergic mechanism. Moreover, since PR neurons are thought to exert an inhibitory control on nigral dopaminergic neurons, it is suggested that the depression of the activity of such inhibitory interneurons may be responsible for ethanol-induced stimulation of dopaminergic activity.
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PMID:Low doses of ethanol inhibit the firing of neurons in the substantia nigra, pars reticulata: a GABAergic effect? 300 May 33

The purpose of our study was to determine whether taurine, like other naturally occurring central nervous system amino acid neurotransmitters (e.g., gamma-aminobutyric acid and glycine), act at the ventral surface of the medulla to influence cardiorespiratory activity. This was accomplished by monitoring cardiorespiratory activity. This was accomplished by monitoring cardiorespiratory activity in chloralose-anesthetized cats and then applying several doses of taurine locally to the ventral medullary surface chemosensitive areas. We found that 2 and 4 mumol of taurine applied to the intermediate area of the ventral surface produced cardiorespiratory depression, whereas taurine, in a similar dose range, produced only respiratory depression when applied to the rostral area. In contrast, taurine applied to the caudal area had no cardiorespiratory effects. Similar experiments with glycine revealed that this inhibitory amino acid elicited a similar pattern of cardiorespiratory depression as taurine. Furthermore, strychnine, an antagonist of glycine, counteracted the cardiorespiratory depressant effects of both taurine and glycine effectively. Pretreatment with strychnine prevented most of the cardiorespiratory depressant effects of taurine and glycine. 6-Aminomethyl-3-methyl-4H-1, 2,4-benzothiadiazine-1,1-dixoide, a putative antagonist of taurine, had antagonistic effects similar to those of strychnine in both treatment and pretreatment studies. 6-Aminomethyl-3-methyl-4H-1,2,4-benzothiadiazine-1,1-dioxide, per se, increased tidal volume when applied to the intermediate area; strychnine had no effect. These results indicate that taurine acts at the chemosensitive areas on the ventral surface of the medulla to produce cardiorespiratory depression, and these effects are due to an interaction of taurine with receptors similar to, but probably not identical with, glycine receptors.
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PMID:Comparative cardiorespiratory effects produced by taurine and glycine applied to the ventral surface of the medulla. 300 Dec 79

The action of agents which bind with the benzodiazepine (BZ) receptor has been investigated by use of intracellular recordings from dissociated mouse neurones grown in tissue culture. The agents tested were midazolam (an agonist at the BZ receptor) and methyl 6,7-dimethoxy-4-ethyl-beta-carboline-3-carboxylate (DMCM-an inverse agonist at the BZ receptor). These were applied to the neurone under study by one of the following methods: iontophoresis; pressure application of known concentrations from blunt pipettes; directly in the perfusing medium. On only very few occasions did midazolam or DMCM have a direct effect on the membrane potential (EM) or conductance (GM) of the impaled neurone. For the neurones where direct effects were present, there was no consistent pattern of response. Neither substance affected the threshold for action potential generation. The effect of midazolam and DMCM on responses evoked by iontophoretic application of gamma-aminobutyric acid (GABA) was also investigated. Three parameters were used to quantify GABA responses: the depolarization (VGABA); the increase in GM (gGABA) measured with constant current pulses; using voltage clamp, the GABA current (IGABA). The GABA response should be quantified by a parameter which is linearly related to the number of GABA-operated channels which are conducting at any instant. VGABA does not fulfil this criterion. gGABA is an appropriate parameter, but is difficult to determine for large responses where the membrane is nearly short circuited. IGABA measured during voltage clamp fulfils this criterion. Midazolam (greater than 10(-6) M) reliably potentiated GABA responses with a parallel shift to the left of the dose-response curve. This is in agreement with biochemical studies where BZs increase the affinity of the GABA receptor for its ligand. The effect of DMCM on GABA responses was more variable. In the majority of cases GABA responses were reduced by DMCM. The threshold dose for this depression was usually around 10(-6) M, but was sometimes as low as 10(-8) M. Dose-response curves of IGABA or gGABA showed the inhibition to be of a non-competitive nature. The maximum inhibition achieved was around 70%. For a given neurone, and at doses which did not necessarily cause a reduction of the response to GABA, DMCM could antagonize the potentiating action of midazolam on GABA responses. A possible interpretation is that more than one BZ site per receptor complex must be occupied by a BZ agonist (or inverse agonist) before the functional changes for the complex as a whole can occur. Desensitization to GABA was increased by midazolam.
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PMID:Electrophysiological studies in cultured mouse CNS neurones of the actions of an agonist and an inverse agonist at the benzodiazepine receptor. 301 92

Diazepam-binding inhibitor is a novel peptide purified to homogeneity from rat and human brain. Diazepam-binding inhibitor is present, though not exclusively, in gamma-aminobutyric acid (GABA)-containing neurons where it is believed to inhibit GABAergic neurotransmission mediated by GABA by binding to the benzodiazepine-GABA receptor complex. Since an impairment of central GABAergic tone has been postulated to be associated with a number of neuropsychiatric disorders, we measured human diazepam-binding inhibitor immunoreactivity in the cerebrospinal fluid (CSF) of patients suffering from endogenous depression, schizophrenia, and dementia of the Alzheimer's type. Patients with major depression had significantly higher concentrations of human diazepam-binding inhibitor immunoreactivity in CSF when compared with age- and sex-matched normal volunteers, while no difference in CSF diazepam-binding inhibitor immunoreactivity was found in schizophrenics or patients with dementia of the Alzheimer's type when compared with controls. The possibility is discussed that the increased CSF human diazepam-binding inhibitor immunoreactivity observed in depressed patients may represent a functional disinhibition of GABAergic neurotransmission associated with depression.
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PMID:Diazepam-binding inhibitor. A brain neuropeptide present in human spinal fluid: studies in depression, schizophrenia, and Alzheimer's disease. 302 63

We have compared the sensitivity of CA1 and CA3 hippocampal pyramidal cells, in mature and immature tissue, to spreading depression-like depolarization episodes. Using hippocampal slices from rabbit, we have found that mature and immature tissue, and CA1 and CA3 neurons, were differentially prone to depolarization episodes, depending on the method used to produce the depolarization. CA1 region was generally more sensitive than CA3. Spontaneous and stimulus-evoked depolarizations were seen more frequently in immature tissue than in mature slices, but anoxia-induced depolarizations were much more likely to occur in mature tissue. Synaptic transmission and responses to somatic gamma-aminobutyric acid (GABA) ejection were compared during anoxia-induced depolarizations in mature slices. The early component of the inhibitory postsynaptic potential (IPSP) normally had the same reversal potential as the GABA response. During anoxia-induced depolarization, both the drug response and the PSPs were lost. Synaptic transmission generally disappeared before the response to exogenous GABA application; the GABA response reappeared before synaptic function was restored. During the recovery of resting potential (RMP) following depolarization, the reversal potential of the early IPSP differed significantly from that of the GABA response; when the cell had recovered to RMP, the IPSP was depolarizing, whereas GABA application produced a 'normal' cell hyperpolarization. IPSPs and GABA-mediated responses attained their pre-depolarization form within a few minutes of RMP recovery. These observations suggest that, at least under special circumstances, the early component of the IPSP and GABA-mediated hyperpolarizations can be dissociated. Therefore, the early IPSP may be mediated by more complex mechanisms than a simple alteration in chloride conductance due to GABA-receptor interactions.
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PMID:Dissociation of the IPSP and response to GABA during spreading depression-like depolarizations in hippocampal slices. 303 31

The present study investigated the effect of systemically administered pentobarbital on the tail-flick (TF) reflex in rats, the neurochemical mechanism of action and the role of descending influences. Pentobarbital produced a clear inhibition of the TF response. Systemic administration of naloxone did not significantly alter this effect, thus it appears to be independent of endogenous opioid systems. Complete spinal transection resulted in a marked potentiation of pentobarbital-induced TF inhibition, demonstrating a spinal locus of action. Moreover, this observation suggests the existence of a tonic descending excitatory influence, opposing the pentobarbital-produced depression of nociceptive transmission in the intact animal. Intrathecal administration of pentobarbital caused a much more pronounced TF inhibition in transected than in intact animals, lending further support to this hypothesis. To identify the neurochemical mechanisms involved in pentobarbital-produced antinociception, the gamma-aminobutyric acid (GABA) antagonists bicuculline and picrotoxinin were administered intrathecally in spinalized animals. Both substances caused an attenuation of the pentobarbital effect, demonstrating the involvement of GABAergic transmission. The proposed descending excitatory system may act either presynaptically and cause a decreased release of GABA into the synapse or postsynaptically via endogenous GABA antagonistic neurotransmitters, which may change the conformation of the GABA-barbiturate receptor complex.
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PMID:Barbiturate-induced inhibition of a spinal nociceptive reflex: role of GABA mechanisms and descending modulation. 303 63

The aim of this study was to evaluate the cardiorespiratory effects of intravenously administered gamma-aminobutyric acid (GABA) alpha-(4,5,6,7-tetrahydroisoxazolo[5,4-c]pyridin-3-ol, THIP) and beta-(baclofen) receptor agonists and to locate the site of action of these drugs in the brain. THIP and baclofen were administered to alpha-chloralose-anesthetized cats while minute ventilation (VE), arterial blood pressure (AP), and heart rate were monitored. THIP, in doses of 0.5 to 2 mg/kg decreased VE, tidal volume (VT), and AP. No changes in respiratory rate (f) or inspiratory (TI) or expiratory (TE) duration were observed. Baclofen, in doses of 0.5 to 4 mg/kg, decreased VE, f, and AP. VT and TI increased and an "apneustic" breathing pattern was seen. THIP (9.5 micrograms), applied bilaterally to the glycine-sensitive area of the ventral medulla, reproduced the effects seen with intravenous administration. Application of 10 micrograms of bicuculline bilaterally to this area reversed the effects of intravenous THIP but not those of baclofen. Baclofen (5.6-56 micrograms), administered by the intracisternal route, produced the same respiratory effects seen with intravenous administration. We conclude that activation of GABA alpha- and beta-receptors produces cardiorespiratory depression. However, this is accomplished by different mechanisms and by actions exerted at different central nervous system sites.
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PMID:Respiratory depressant effects of GABA alpha- and beta-receptor agonists in the cat. 303 27

Ethanol, a highly lipid-soluble compound, appears to exert its effects through interactions with the cell membrane. Cell membrane alterations indirectly affect the functioning of membrane-associated proteins, which function as channels, carriers, enzymes and receptors. For example, studies suggest that ethanol exerts an effect upon the gamma-aminobutyric acid (GABA)-benzodiazepine-chloride ionophore receptor complex, thereby accounting for the biochemical and clinical similarities between ethanol, benzodiazepines and barbiturates. The patient with acute ethanol poisoning may present with symptoms ranging from slurred speech, ataxia and incoordination to coma, potentially resulting in respiratory depression and death. At blood alcohol concentrations of greater than 250 mg% (250 mg% = 250 mg/dl = 2.5 g/L = 0.250%), the patient is usually at risk of coma. Children and alcohol-naive adults may experience severe toxicity at blood alcohol concentrations less than 100 mg%, whereas alcoholics may demonstrate significant impairment only at concentrations greater than 300 mg%. Upon presentation of a patient suspected of acute ethanol poisoning, cardiovascular and respiratory stabilisation should be assured. Thiamine (vitamin B1) and then dextrose should be administered, and the blood alcohol concentration measured. Subsequent to stabilisation, alternative aetiologies for the signs and symptoms observed should be considered. There are presently no agents available for clinical use that will reverse the acute effects of ethanol. Treatment consists of supportive care and close observation until the blood alcohol concentration decreases to a non-toxic level. In the non-dependent adult, ethanol is metabolised at the rate of approximately 15 mg%/hour. Haemodialysis may be considered in cases of a severely ill child or comatose adult. Follow-up may include referral for counselling for alcohol abuse, suicide attempts, or parental neglect (in children). The ethanol withdrawal syndrome may be observed in the ethanol-dependent patient within 8 hours of the last drink, with blood alcohol concentrations in excess of 200 mg%. Symptoms consist of tremor, nausea and vomiting, increased blood pressure and heart rate, paroxysmal sweats, depression, and anxiety. Alterations in the GABA-benzodiazepine-chloride receptor complex, noradrenergic overactivity, and hypothalamic-pituitary-adrenal axis stimulation are suggested explanations for withdrawal symptomatology.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Acute ethanol poisoning and the ethanol withdrawal syndrome. 304 Dec 44

The effect of two benzodiazepines, midazolam and diazepam, was studied in guinea-pig myenteric neurones, using intracellular recording techniques. Both these benzodiazepines (100-300 pM) potentiated the rapidly desensitizing, bicuculline-sensitive depolarization, induced by alpha-aminobutyrate ionophoresis. Concentrations of midazolam and diazepam higher than 100 nM depressed the gamma-aminobutyrate-induced depolarization. The potentiating effect of the benzodiazepines was reversibly abolished by Ro 15-1788 (1-100 nM) and by pentylenetetrazol (100 microM). A second effect of midazolam and diazepam (100-300 pM) was a reversible depression of the amplitude and duration of the directly evoked action potential in 29% of neurones, without affecting membrane potential or conductance. The effect was very marked when electrodes were filled with CsCl, and was also seen in the presence of tetrodotoxin. In some but not all of these neurones, the amplitude and duration of the action potentials was reduced also by gamma-aminobutyrate (1-10 microM). Ro 15-1788 and pentylenetetrazol reversibly abolished the effect of benzodiazepines on the action potential, but not that of gamma-aminobutyrate. Thus, benzodiazepines have two effects on myenteric neurones. The first is an enhancement of the gamma-aminobutyrate response (activation of Cl conductance); the second is a depression of the calcium action potential, which appears to be independent of gamma-aminobutyrate.
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PMID:Benzodiazepines both enhance gamma-aminobutyrate responses and decrease calcium action potentials in guinea-pig myenteric neurones. 315 84

The effects of the gamma-aminobutyric acid antagonist, pentylenetetrazol (PTZ), on recovery from somatosensory and motor asymmetries after unilateral sensorimotor cortex lesions were investigated. Behavior was assessed using a bilateral tactile stimulation test and a measure of forelimb motor coordination. Immediately after surgery, the PTZ-treated and saline (SAL) control groups both exhibited severe ipsilateral behavioral asymmetries. Rats receiving PTZ recovered significantly faster from somatosensory asymmetry than those receiving SAL. Recovery was complete in the PTZ group within 3 postoperative weeks, while the SAL group failed to reach a comparable level until 2 months after surgery. There was no difference between PTZ and SAL groups on recovery of forelimb motor coordination. No difference in lesion size between the SAL and the PTZ groups could be found. These data are consistent with the hypothesis that post-traumatic neuronal depression may contribute to the severity of sensorimotor deficits observed after brain damage.
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PMID:Seizures and recovery from experimental brain damage. 319 89

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