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)

Diazepam decreased the rate and amplitude of contraction in isolated embryonic chick hearts in a dose-dependent manner in both the noninnervated hearts obtained from 4-day-old embryos and the innervated hearts from 7-day-old embryos. The concentration of diazepam necessary to reduce the heart rate and contractile amplitude to 50% of the control values was about 1 X 10(-4) M. Concentrations less than 1.0 X 10(-5) M had no detectable depressant effects. Prior administration of atropine did not alter the depression induced by diazepam. Norepinephrine was able to stimulate the amplitude of contraction in the diazepam-depressed heart while atropine was without effect. The vehicle used in the clinical injectable preparation of diazepam had no depressant effects. The mechanism of action of the diazepam-induced depression on the isolated embryonic chick heart may be a direct depression of the myocardium.
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PMID:Effects of diazepam on the isolated chick embryo heart. 118 1

The functions of the central monoamines Norepinephrine (NE) and Serotonin (5HT) can be clarified by the study of behaviors of rats administered selective monoamine toxins. In his home environment the low NE rat has drive deficits and is lethargic, tending to remain in his burrow, but in novel environments this animal acts less frightened than Controls. The low 5HT rat is conversely active and exploratory in familiar environments but frightened in novel environments. These two animals model aspects of depression and anxiety, respectively. 5HT can be thought of as placing the brain into a state of consciousness appropriate for an animal in his nest (i.e., 5HT neurons act as relaxers), and as involved in a type of positive affect related to security, whereas NE neurons are dominant when an animal is vigilant, foraging out in the environment and are involved in a type of positive affect related to goal-directed approach arousal. Monoamine toxins may be produced when the behaviors elicited by these central neuronal systems are negatively reinforced (extinguished).
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PMID:Behavior and the balance between norepinephrine and serotonin. 123 10

Noradrenaline and dopamine injected into the lateral brain ventricle exerted a significant effect on the behavior of rats. Both amines caused a slight rise in the basic locomotor activity which was significantly increased in the animals with inhibited monoamine oxidase activity. Besides that, they suppressed the behavior of rats in the open-field test, inhibited the conditioned avoidance response, decreased body temperature and increased amphetamine-induced motor hyperactivity. Noradrenaline, in contrast to dopamine, changed the intensity of amphetamine-induced stereotypy and prolonged the action of hypnotics. The central action of both catecholamines (in higher doses especially) seemed to have a biphasic course: in the first phase after administration depression was observed which was more pronounced after noradrenaline administration, in the second phase a stimulating effect b
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PMID:Comparison of central effects of noradrenaline and dopamine injected into the lateral brain ventricle in rats. 124 88

We electromagnetically measured blood flow to one cerebral hemisphere and determined cerebrovascular reactivity to vasoconstrictor and vasodilator stimuli during normoglycemia and insulin-induced hypoglycemia in unanesthetized goats. Control blood glucose concentration was 84 +/- 4 mg, and insulin, injected intravenously, decreased glycemia with a concomitant increment in cerebral blood flow and reduction in cerebrovascular resistance in all the animals. When glycemia decreased to 60 to 65 mg/dl, the animals began to show signs of increased adrenergic activity, and when it decreased to less than 30 mg/dl, they showed signs of CNS depression. Cerebral blood flow began to rise significantly at a glycemia of 50 to 55 mg/dl, and progressively increased to reach an increment of 36% +/- 4% when glycemia was less than 30 mg/dl. Norepinephrine (0.3 to 9 micrograms), tyramine (50 to 500 micrograms), and 5-hydroxytryptamine (0.1 to 9 micrograms) reduced cerebral blood flow, and this effect was lower during severe hypoglycemia. Acetylcholine (0.01 to 1 microgram), isoproterenol (0.03 to 3 micrograms), diazoxide (0.3 to 9 mg), and inhalation of 10% CO2 in air increased cerebral blood flow, and this effect was also lower during severe hypoglycemia. The results show that insulin-induced hypoglycemia causes cerebral vasodilation and reduction of the capacity of cerebral blood vessels to constrict and dilate. They also show that the glycemic thresholds for increasing cerebral blood flow are near to, or slightly lower than, the thresholds for hypoglycemic symptoms. This experimental model of hypoglycemia closely resembles the conditions in hypoglycemic patients and permits serial evaluation of the cerebrovascular effects of hypoglycemia without using anesthesia.
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PMID:Effects of hypoglycemia on the cerebral circulation in awake goats. 131 45

High-threshold (HVA) Ca2+ channels of human neuroblastoma IMR32 cells were effectively inhibited by noradrenaline. At potentials between -20 mV and +10 mV, micromolar concentrations of noradrenaline induced a 50%-70% depression of HVA Ba2+ currents and a prolongation of their activation kinetics. Both effects were relieved at more positive voltages or by applying strong conditioning pre-pulses (facilitation). Facilitation restored the rapid activation of HVA channels and recruited about 80% of the noradrenaline-inhibited channels at rest. Re-inhibition of Ca2+ channels after facilitation was slow (tau r 36-45 ms) and voltage-independent between -30 mV and -90 mV. The inhibitory action of noradrenaline was dose-dependent (IC50 = 84 nM), mediated by alpha 2-adrenergic receptors and selective for omega-conotoxin-sensitive Ca2+ channels, which represent the majority of HVA channels expressed by IMR32 cells. The action of noradrenaline was mimicked by intracellular applications of GTP[gamma S] and prevented by GDP[beta S] or by pre-incubation with pertussis toxin. The time course of noradrenaline inhibition measured during fast application (onset) and wash-out (offset) of the drug were independent of saturating agonist concentrations (10-50 microM) and developed with mean time constants of 0.56 s (tau on) and 3.6 s (tau off) respectively. The data could be simulated by a kinetic model in which a G protein is assumed to modify directly the voltage-dependent gating of Ca2+ channels. Noradrenaline-modified channels are mostly inhibited at rest and can be recruited in a steep voltage-dependent manner with increasing voltages.
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PMID:Voltage-dependent noradrenergic modulation of omega-conotoxin-sensitive Ca2+ channels in human neuroblastoma IMR32 cells. 133 78

Unilateral olfactory deprivation in the rat profoundly modifies olfactory bulb anatomy, chemistry and function. The present report examined the time-course of the functional effects of unilateral deprivation on inhibition in the olfactory bulb using paired-pulse stimulation of the lateral olfactory tract and olfactory nerve. In addition, an attempt was made to correlate these physiological measures with olfactory bulb dopamine and norepinephrine levels and tyrosine hydroxylase immunoreactivity. Deprivation from postnatal day 1 to postnatal day 20 or postnatal day 40 significantly enhanced lateral olfactory tract paired-pulse depression, while late onset deprivation (postnatal day 20) had no effect. Olfactory nerve paired-pulse depression was enhanced by 40 days of deprivation regardless of the age at onset. The time-course of these deprivation-induced physiological changes did not correlate well with reductions in dopamine. Dopamine levels were reduced in all deprivation conditions by 70-80% compared with control bulbs. Norepinephrine content was slightly elevated in deprived bulbs. These results suggest that early olfactory deprivation modifies olfactory bulb synaptic activity and further, as with other sensory systems, these effects are age and duration dependent.
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PMID:Functional consequences of unilateral olfactory deprivation: time-course and age sensitivity. 135 86

In order to gain insight into the mechanism of the autoinhibition of noradrenaline release, the present study explores the effects of substances acting at various adrenoceptor-subtypes on voltage-activated Ca2+ currents. Experiments were carried out on cultured embryonic chick sympathetic neurons using the patch clamp technique. Ca2+ currents associated with a (fully activating) depolarizing 150 ms voltage step to 0 mV were reduced by noradrenaline and the two alpha 2-adrenoceptor agonists UK 14,304 and clonidine, predominantly during the early phase of activation. We quantified these effects by measuring Ca2+ current amplitudes in the absence and presence of substances 10 ms after the beginning of the depolarization. Noradrenaline effects were maximal at 5 mumol/l, causing a 28% depression of the current. Half-maximal effects (IC50) were apparent at 0.7 mumol/l. UK 14,304 was equipotent to noradrenaline (IC50: 0.5 mumol/l; maximal effect: 26% depression). Clonidine, while active in the same range of concentration (IC50: 0.6 mumol/l), had a smaller maximal effect (20% depression). Methoxamine and isoprenaline, on the other hand, did not significantly reduce the Ca2+ current at 10 mumol/l. The noradrenaline-induced inhibition was attenuated by yohimbine (1 mumol/l). Neither prazosin (1 mumol/l) nor propranolol (1 mumol/l) interfered with the effect of noradrenaline. These results indicate a reduction of Ca2+ influx via alpha 2-adrenoceptors and suggest that the autoreceptor-mediated inhibition of transmitter release in embryonic chick sympathetic neurons operates through the modulation of Ca2+ channels.
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PMID:Modulation of calcium currents via alpha 2-adrenoceptors in embryonic chick sympathetic neurons. 168 90

The purpose of this article is to give the clinician not proficient in biochemistry an understanding of the biochemical research data on neurotransmitters and suicide. This literature review reports the current findings on serotonin (5-HT), dopamine (DA), and norepinephrine (NE) as possible biochemical markers of depression and suicide. In conjunction with known environmental and behavioral indicators of suicide, neurotransmitter balance could be a factor in determining the severity of depression and the possible suicidal ideation in patients. Numerous studies have been performed on the monoamines: Serotonin, Dopamine and Norepinephrine, neurotransmitters that innervate parts of the spinal cord and all areas of the brain. Studies appear to suggest a relationship among monoamine levels, depression, and suicide. Significantly low levels of serotonin and the neurotransmitter metabolite (5-HIAA) may be correlated with suicidal behavior.
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PMID:Monoamines: biochemical markers of suicide? 168 24

Norepinephrine (NE) and epinephrine (E) responses to upright posture were investigated in 25 patients with orthostatic hypotension due to brainstem ischemic lesions and in 25 control subjects. In controls the postural stimulus induced constantly a rise in NE urinary excretion and a reduction in E excretion, while in patients with orthostatic hypotension it caused a depression in NE urinary excretion and a rise in E urinary excretion; the last alteration was noticed in all but one patient. The E discharge induced by posture in patients with orthostatic hypotension may be involved in the reduction of vascular peripheral resistance and then in postural fall of blood pressure displayed by such patients.
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PMID:Norepinephrine and epinephrine responses to postural stimulus in orthostatic hypotension due to brainstem ischemic lesions. 186 28

In pontine slices of the rat brain, the frequency of spontaneous action potentials of locus coeruleus (LC) neurones was recorded extracellularly. Noradrenaline 0.1-100 mumol/l, UK 14,304 0.01-100 nmol/l, [Met5]-enkephalin 1-10,000 nmol/l and [D-Ala2,D-Leu5]enkephalin 0.1-1,000 nmol/l, all depressed the firing rate. Rauwolscine 1 mumol/l antagonized the effects of both noradrenaline and UK 14,304, but potentiated the effects of [Met5]enkephalin and [D-Ala2, D-Leu5]enkephalin. Idazoxan 1 mumol/l acted in a similar manner. Prazosin 1 mumol/l did not change the effects of either noradrenaline or [Met5]enkephalin. Naloxone 0.1 mumol/l antagonized both [Met5]enkephalin and [D-Ala2, D-Leu5]enkephalin, but failed to alter the effects of either noradrenaline or UK 14,304. Rauwolscine, idazoxan and prazosin, all 1 mumol/l, as well as naloxone 0.1 mumol/l, did not influence the firing rate when given alone. Desipramine 1 mumol/l inhibited the discharge of action potentials in a rauwolscine-antagonizable manner. Noradrenaline 10 mumol/l produced the same depression of firing, both in the presence of noradrenaline 1 mumol/l and [Met5]enkephalin 0.03 mumol/l. Likewise, the effect of [Met5]enkephalin 0.3 mumol/l was the same, irrespective of whether it was added to a medium containing [Met5]enkephalin 0.03 mumol/l or noradrenaline 1 mumol/l. The spontaneous activity of LC neurones is inhibited by somatic alpha 2-adrenoceptors and opioid mu-receptors. We suggest that the two receptors interact with each other at a site located between themselves and not in the subsequent common signal transduction system.
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PMID:Blockade of alpha 2-adrenoceptors increases opioid mu-receptor-mediated inhibition of the firing rate of rat locus coeruleus neurones. 198 56


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