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)

1. The effects of sodium pentobarbital and alpha-chloralose anesthesia on the baroreflex control of circulation were studied in groups of 7 to 11 rats. The tests were performed in conscious undisturbed rats and repeated after anesthesia. 2. Pentobarbital (15 min) depressed the initial peak of the pressor response produced by carotid occlusion by 68% (15 +/- 1 vs 47 +/- 3 mmHg) and the maintained response by 52% (13 +/- 1 vs 27 +/- 4). Depression by chloralose was 48% (26 +/- 5 vs 50 +/- 3) and 21% (19 +/- 2 vs 24 +/- 3), respectively. The inhibition progressively declined at 30, 60, 90 and 120 min after pentobarbital but was unchanged up to 120 min after chloralose. 3. The baroreflex sensitivity index for bradycardic responses (phenylephrine injection) diminished by 50% after pentobarbital (-1.1 +/- 0.3 vs -2.2 +/- 0.3 beats/min per mmHg) and remained unaltered after chloralose. 4. The baroreflex sensitivity index for tachycardic responses (nitroprusside injection) was depressed by 61% after pentobarbital (-1.5 +/- 0.5 vs -3.8 +/- 0.5 beats/min per mmHg) and 35% after chloralose (-2.5 +/- 0.2 vs -3.9 +/- 0.5). 5. In general the depression of reflex control of circulation was more severe after pentobarbital than after chloralose anesthesia, while the resting control arterial pressure was not affected by either. The inhibition of the baroreflex tachycardic responses was more intense than that of the bradycardic responses and represented a better index of the depression exerted on the pressure responses to carotid occlusion.
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PMID:Influence of general anesthetics on baroreflex control of circulation. 213 30

New planar lipid bilayer technology enabled the pharmacologic study of single sodium channels from human brain, overcoming the limitations of tissue availability and the rapid loss of protein function in conventional experimental preparations. Synaptosomal vesicles prepared from human brain cortical tissue were fused with planar lipid bilayers. In the presence of batrachotoxin, sodium channels were incorporated into lipid bilayers and their single-channel properties studied. Pentobarbital was found to depress two major functions of the sodium channel, leading to a voltage-independent reduction of the fractional channel open-time (ED50 0.61-0.75 mM) and an interaction with the voltage-dependent steady-state activation. The steady-state activation curve was shifted to more negative potentials and had a reduced slope, i.e., negative membrane potentials became less effective at closing sodium channels. The results were consistent with a pentobarbital-induced increase in protein flexibility. The actions of the two optical stereoisomers of pentobarbital showed no significant differences, indicating that other ion channels must also be involved in the clinical actions of barbiturates. The pentobarbital effects on sodium channels occurred at concentrations thought to be relevant in general anesthesia and within the clinical range. This suggests that sodium channels could contribute to overall anesthetic depression, supporting our hypothesis that anesthesia results from the superposition and integration of several anesthetic actions at the molecular level.
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PMID:Molecular actions of pentobarbital isomers on sodium channels from human brain cortex. 215 52

Locomotor stepping can be elicited by brain stimulation at various diencephalic sites under moderate levels of Nembutal. This study determined if locomotor initiation measured under anesthesia provides a valid measure of the intersite factors which determine initiation in the awake condition. We compared the latencies to initiate locomotor stepping elicited by electrical stimulation (50 microA, 0.5-msec pulses, 10 to 160 Hz) by rats tested while awake and unrestrained in a rotary runway or anesthetized and held in a stereotaxic apparatus. In the latter tests, initial anesthesia was provided by Nembutal (25 mg/kg) and 2% halothane and maintenance anesthesia was provided by 7 mg/kg as needed and local injections of lidocaine. For 30 sites in 16 rats, average locomotor initiation latency in the awake condition and the shortest latencies in the anesthetized condition were positively correlated (r = .78). Locomotion at sites with long latencies in the awake condition was frequently blocked in the anesthetized condition, but sites with short latencies were rarely blocked. The results indicate that the shortest locomotor latencies in the anesthetized condition approximate the latencies measured in the awake condition. It is concluded that the anesthetized condition can provide valid initiation measures, but sites with long latencies in the awake condition are prone to depression under anesthesia.
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PMID:Latency to initiate locomotion elicited by stimulation of the diencephalon positively correlates in awake and anesthetized rats. 221 98

Parameters of electrical stimulation (ES) of the rats cerebral cortex which synaptically induced spreading depression (SD) in deep structures were found. The thalamic SD was regularly triggered by short (0.02-0.05 s) high-frequency (200-500 Hz) ES of the parietal cortical surface. In this case the EEG control showed the absence of any seizure activity in the cortical and subcortical structures. Nembutal (20-40 mg/kg) raised the SD thresholds, but did not prevent the short-latency thalamic SD. The ES of the parietal cortex was not sufficiently effective for SD synaptic excitation in the hippocampus and caudate nucleus. In contrast to the thalamic SD, the hippocampal one was accompanied by the episodes of epileptiform activity at certain SD phases. Thus, the low subseizure threshold of the synaptically triggered cortical and subcortical SD should be taken into account when biological purpose of the SD is discussed.
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PMID:[Spreading depression in the thalamus, hippocampus and caudate nucleus of the rat during electrical stimulation of the parietal area of the cortex]. 233 31

Effects of pentobarbital on the calcium current of Aplysia neurons were investigated under current- and voltage-clamp conditions using the conventional two-microelectrode technique. Pentobarbital attenuated the progressive broadening of repeated action potentials of somata, suggesting a reduction in the calcium current. When calcium ion was replaced with barium ion in the perfusing solution, in which neither sodium nor potassium ions carried transmembrane currents, the barium current (IBa) which flowed through the calcium channel of the cell membrane was generated by depolarizing pulses of several hundred milliseconds applied every 1 min from a holding potential of -50 mV. The IBa was not affected by tetrodotoxin (30 microM). The current was decreased by pentobarbital (0.1-5 mM) in a dose-dependent manner. The inhibition was much greater at a lower pH of the perfusate, indicating that the uncharged form of the agent was responsible. The voltage-dependent inactivation of the IBa proceeded with two time constants [190 +/- 21 and 2020 +/- 146 msec (N = 4) at -10 mV], both of which were shortened by adding 1 mM pentobarbital [to 120 +/- 18 and 540 +/- 51 msec (N = 4), respectively]. The IBa recovered from the inactivation with two time constants [60 +/- 7 and 871 +/- 76 msec (N = 3) at -50 mV]. The anesthetic (1 mM) prolonged both of them, to 124 +/- 20 and 1480 +/- 172 msec (N = 3), respectively, resulting in a use-dependent depression of the current at 2-Hz stimulation. Pentobarbital reduced the IBa to a greater extent when the holding potential was more positive (-30 instead of -50 mV), indicating a higher affinity of the drug to the inactivated state of the channel. These findings suggest that the attenuation of the progressive broadening of successive spikes by pentobarbital is due to a decrease in the voltage- and time-dependent calcium current, ending in depression of transmitter release from the nerve terminal.
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PMID:Reduction of the voltage-dependent calcium current in Aplysia neurons by pentobarbital. 243 43

1. A comparison was made between the influences of supramammillary (SUM) and medial septal (MS) nuclei on hippocampal physiology in Nembutal-anesthetized rats. Specifically, the effects of prestimulation of the SUM or MS on the perforant path-dentate field potential, on spontaneous activity of single units, and on perforant path-induced unit activation were assessed. Another series of experiments addressed the issue of whether the SUM and MS effects on the perforant path-dentate field response are independent. 2. Prestimulation of the SUM or MS significantly facilitated the perforant path-dentate population spike with no clear effect on the field excitatory postsynaptic potential (EPSP) recorded in the subgranular zone of the dentate hilus. Prestimulation of either nucleus also reduced the threshold for spike onset. The major differences between the two spike facilitation effects were the magnitude of the change and possibly the optimal interstimulus intervals required to obtain the effects. 3. Acute transection of the ipsilateral column of fornix or dorsal fornix eliminated the SUM population spike facilitation effect. MS lesion or dorsal fornix/fimbria transection eliminated the MS spike facilitation effect. The MS lesion did not alter the effects of SUM prestimulation. Cingulum or medial forebrain bundle transection affected neither SUM- nor MS-mediated spike facilitation. Thus the SUM and MS influences on the dentate field response appear to be independent of one another. The relevant SUM afferents travel through the ipsilateral column of fornix and dorsal fornix, whereas MS afferents project through the dorsal fornix/fimbria. 4. Single units recorded in stratum granulosum (SG) were assessed with respect to several parameters. These included the mean firing rate, whether or not excitation occurred prior to the field population spike and at lower threshold, and whether or not a driven unit responded to a second perforant path stimulus delivered at short latency following the first (during the period of population spike depression). The latter parameter in particular appeared to separate SG cells into two classes. The cells that were not activated during the second field potential were classified as granule cells, whereas those that were activated were classified as basket cells. Based on this distinction, significant differences were also found between the two cell classes on the other parameters. In particular, cells classified as granule cells often had very low firing rates.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:A comparison of supramammillary and medial septal influences on hippocampal field potentials and single-unit activity. 249 75

In order to determine the possible involvement of GABA-ergic mechanisms in the modulation of the cough reflex, the effects of GABA antagonists on the pentobarbital-induced depression of respiration and cough were examined in a comparative study in rats. The cough reflex was induced by application of electrical stimulation to the tracheal mucosa by the puncture electrode-induced cough method. The 50% antitussive dose (AtD50) of pentobarbital was calculated by the "up and down" method. Pentobarbital (10 mg/kg, IP) caused a reduction of tidal volume, which was counteracted by pretreatment with picrotoxin (3 mg/kg, IP) or bicuculline (3 mg/kg, IP). However, neither picrotoxin nor bicuculline were able to counteract the reduction in frequency of respiration. The AtD50 of pentobarbital was 1.95 mg/kg when administered IP. The AtD50 of pentobarbital was not altered after pretreatment of rats with picrotoxin (1.85 mg/kg, IP) or with bicuculline (1.55 mg/kg). These results suggest that GABA-ergic mechanisms may not be involved in the cough-depressant effect of pentobarbital.
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PMID:Effects of GABA antagonists on the pentobarbital-induced depression of respiration and cough in rats. 254 92

Excitatory synaptic transmission, induced by electrical stimulation of optic nerve fibres on relay neurones, was recorded from in vitro preparations of the optic tectum of the frog. Bath-applied glutamate (the putative excitatory transmitter of the optic nerve) produced transient enhancement of tectal field potentials, followed by a depression, presumably caused by sustained neuronal depolarization. Pentobarbitone potently antagonized the depressant effect of glutamate, producing an approximate 50% reduction in the response of the tectum to glutamate at 25 microM. Midazolam also decreased the effect of glutamate with an IC50 value of 5 nM. Since, in the optic tectum of the frog, neither pentobarbitone nor midazolam enhance responses to bath-applied GABA, it is suggested that this area of the brain is a useful preparation in which to investigate the interaction of barbiturates and benzodiazepines with glutamate receptor mechanisms, without concurrent interactions with GABAergic processes.
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PMID:Antagonism of the actions of glutamate by pentobarbitone or midazolam in the frog optic tectum in vitro. 281 83

The state of deep surgical anaesthesia, induced by intraperitoneal injection of pentobarbital sodium (54 mg/kg) or ketamine hydrochloride (150 mg/kg) in the rat, was accompanied by a significant reduction in the permeability of the blood-brain barrier evaluated by calculating a unidirectional blood-to-brain constant (Ki) for the circulating tracer [14C]alpha-aminoisobutyric acid. Pentobarbital-induced anaesthesia was also characterized by a widespread and marked depression of local cerebral glucose utilization; on the contrary, when rats were anaesthetized with ketamine, cerebral glucose utilization increased in the striatum and hippocampus and decreased in the cerebellum and brain-stem. It is suggested, as a hypothesis, that two different mechanisms, depending on the kind of the anaesthetic drug used, may be involved in the changes in the permeability of the blood-brain barrier, observed in anaesthetized animals: (a) a neurogenic component; (b) a direct interaction of the anaesthetic with elements of the microvasculature.
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PMID:Modifications of the permeability of the blood-brain barrier and local cerebral metabolism in pentobarbital- and ketamine-anaesthetized rats. 281 89

Short latency somatosensory evoked potential (SSEP) was recorded in cats to identify the potentials originating from the cortex and the thalamus, and the following results were obtained. When SSEP was elicited on the bregma by stimulation of the contralateral superficial radial nerve, P2, P4, P4.5, P5.5, P7, P8, N8.5, P11, P9.5, N11.5, N12.5 and N14 were recognized. Of these components N11.5, N12.5 and N14 consisted of large negative potential (LNP). When KCl was applied to the sensorimotor cortex to induce spreading depression, the positive component of the primary evoked potential was markedly decreased and the negative component disappeared. In SSEP, components preceding N8.5 were unchanged. N8.5-P11 and P11-N12.5, however, markedly diminished or disappeared. The latency of the first component of the field potential recorded in the VPL nucleus of the thalamus was about 5 ms. When a small amount of Nembutal was injected into VPL nucleus, components between P2 and P4.5 remained unchanged, but P5.5 disappeared. P7, P8 and N8.5 were preserved. The amplitude of N8.5-P11 was markedly decreased and LNP disappeared. From these results, among various components of SSEP, P5.5 should originate from the thalamus, and P7, P8 and N8.5 from the extralemniscal system. N8.5-P11 should mainly represent post-synaptic potential (PSP) in the deep somatic layer, and P11-N12.5 represent PSP in the apical dentrites of the sensorimotor cortex. N14 probably represents PSP via the diffuse projection system. Thus, LNP should consist of complex potentials of specific and non-specific sensory systems.
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PMID:Origin of short latency somatosensory evoked potential in cats: especially potentials derived from thalamus and cortex. 289 Oct 65


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