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Query: UMLS:C0344307 (
analgesia
)
28,200
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
The direct electrical stimulation (with biphasic pulses of 1 msec, 10 pulses/sec, 200 microA, for 30 min) of the nucleus raphe magnus in chloral hydrate anaesthesized rats produced a significant acceleration (+50%) of 5-HT synthesis in the spinal cord as revealed by the increased rate of 5-HTP accumulation occurring at this level after the blockade of central 5-HTP decarboxylase with benserazid. In contrast, no change was detected in 5-HT metabolism in the forebrain of stimulated rats. The acceleration of 5-HT synthesis was likely not due to an increased availability of
tryptophan
for the rate-limiting enzyme, tryptophan hydroxylase, since the concentration of this amino acid was changed neither in the spinal cord, nor in the forebrain of stimulated rats. The measurement of tryptophan hydroxylase activity in soluble extracts from the spinal cord of control and stimulated rats revealed that the acceleration in 5-HT synthesis produced by the electrical stimulation of the nucleus raphe magnus was not associated with a persisting activation of this enzyme. Although one cannot completely exclude that a short-lasting activation of tryptophan hydroxylase, no longer detectable in soluble extracts, has occurred in the spinal cord of stimulated rats, the present findings rather suggest that the rate of 5-HT synthesis can be controlled by factors other than only the concentration of
tryptophan
and the intrinsic activity of tryptophan hydroxylase in serotoninergic neurons. The demonstration of an acceleration of 5-HT synthesis in bulbospinal serotoninergic neurons under stimulating conditions close to those producing
analgesia
in rats further supports the role of these neuronal systems in the physiological mechanisms of pain control.
...
PMID:Electrical stimulation of the nucleus raphe magnus in the rat. Effects on 5-HT metabolism in the spinal cord. 615 75
The effect of morphine (10 mg/kg, s.c.) on the rate of [3H]5-HT synthesis in brain and spinal cord following intravenous injection of [2H]
tryptophan
was studied in the rat. (1) In the spinal cord morphine induced an increase in [3H]
TRP
uptake which was significant 30 and 60 min after the injection, and a clear enhancement of the formation of [3H]5-HT which was significant 15 min after the injection and which peaked at 30 min. In the forebrain, the increase in [3H]
TRP
accumulation was significant as early as 15 min after morphine. At this time, the rate of 5-HT synthesis was not modified, but it was significantly increased 30 and 60 min after the injection. (2) Increases in [3H]5-HT synthesis rate were suppressed by naloxone (1 mg/kg, i.m.). However this narcotic antagonist did not significantly reduce the increased accumulation of [3H]
TRP
in brain and spinal cord due to morphine treatment. These results demonstrate that morphine induces a fast and marked increase in 5-HT synthesis, and suggest that this increase is only partly related to an increase in the availability of
tryptophan
to the central nervous system. These results are in good agreement with recent investigations showing the involvement of the raphe-spinal system in morphine
analgesia
.
...
PMID:Effect of acute administration of morphine on newly synthesized 5-hydroxytryptamine in spinal cord of the rat. 615 57
This paper reviews the author's nine years of experience in analgesic brain stimulation. During this time, of 22 patients with pain of peripheral origin who were treated with periaqueductal gray (PAG), stimulation 16 achieved successful control of pain. Of 40 patients who presented with deafferentation pain, 16 were able to control their dysesthesia by brain stimulation of the subcortical somatosensory region alone; follow-up was over a long period. The mechanism of deafferentation pain is poorly understood and the effectiveness of subcortical somatosensory electrical stimulation to relieve such pain is based on empirical observation. The
analgesia
produced by PAG stimulation appears to be mediated by the release of beta-endorphin from the anterior hypothalamus. The released beta-endorphin binds to the opiate receptors in the PAG and activates the descending pain-inhibitory pathway. However, the repetitive stimulation of this serotonergic system produces tolerance to its analgesic effect, due to a decreased rate of serotonin turnover. Loading of the serotonin precursor by dietary supplementation of the essential amino acid L-
tryptophan
reverses this tolerance.
...
PMID:The current status of analgesic brain stimulation. 616 68
The effect of various doses of acute morphine on both
analgesia
and 5-hydroxytryptamine (5-HT) synthesis in the brain and the spinal cord has been studied in rats rendered tolerant by chronic administration of the analgesic. In morphine-tolerant rats, the incorporation of tritiated-L-
tryptophan
(
TRP
) in the brain and the spinal cord was higher than in non-tolerant rats, but there was no significant difference in the synthesis rate of the newly formed 5-HT between the two groups. An acute dose of morphine (10 mg/kg) which induced a powerful
analgesia
and a large increase in 5-HT synthesis in non-tolerant rats, did not produce
analgesia
nor changes in 5-HT synthesis in tolerant rats. Higher acute doses of morphine which restored
analgesia
in tolerant rats, induced a discrete increase in [3H]
TRP
incorporation and a marked increase in 5-HT synthesis in the spinal cord of these animals. The same doses significantly increased [3H]
TRP
incorporation in the forebrain but did not modify 5-HT synthesis. These results show that tolerance to morphine is associated with a decrease in the effects of the drug on 5-HT synthesis in the spinal cord and the brain and tend further support to the hypothesis that an enhancement of 5-HT synthesis in the spinal cord, induced independently of modifications of the availability of
TRP
, is associated with the analgesic effect of morphine.
...
PMID:The relationship between morphine analgesia and the activity of bulbo-spinal serotonergic system as studied by tolerance phenomenon. 627 44
Recent studies have shown that while the analgesic responses induced by certain stressors appear to be related to morphine
analgesia
, the analgesic responses to other stressors do not. Para-chlorophenylalanine (PCPA), a potent
tryptophan
-hydroxylase inhibitor has been shown to decrease both basal pain thresholds and morphine
analgesia
on the flinch-jump test. To assess further the relationship between morphine and stress-induced
analgesia
, PCPA's effect upon the analgesic responses to cold-water swims, 2-deoxy-D-glucose, inescapable foot shock and morphine were determined using the flinch-jump and tail-flick tests. PCPA, which produced an 85% depletion of brain serotonin, significantly decreased jump thresholds while significantly increasing tail-flick latencies. Similarly, while morphine
analgesia
was decreased by PCPA on the flinch-jump test, it was not affected on the tail-flick test. The analgesic jump thresholds induced by cold-water swims and 2-deoxy-D-glucose as well as the increase tail-flick latencies induced by foot shock were unaffected by PCPA. These results are discussed in terms of PCPA's differential effects upon basal nociception and morphine
analgesia
and in terms of further dissociation between morphine and stress-induced
analgesia
.
...
PMID:Stress and morphine analgesia: alterations following p-chlorophenylalanine. 645 44
The effects of a nociceptive peripheral stimulus and/or morphine upon endogenous
tryptophan
levels (TRP), specific activity of
tryptophan
(S.A. of TRP) and serotonin (5-HT) synthesis in the dorsal and ventral spinal cord, the brainstem and the forebrain were investigated in anaesthetized rats. Whereas endogenous TRP and S.A. of TRP were not found to be affected by any of the manipulations described below, 5-HT synthesis was markedly altered. The application of a prolonged and intense nociceptive electrical stimulus to the tail induced a rise in 5-HT synthesis which was dependent on the part of the CNS considered, with the dorsal cord being the most sensitive (25%), the ventral cord and the brainstem being effected to a lesser extent (14% and 16% respectively), and the forebrain not being affected significantly. By contrast, the application of a prolonged and innocuous electrical stimulus on the tail was not followed by any detectable changes in 5-HT synthesis. Morphine administration (1 mg/kg; i.v.) did not significantly alter 5-HT synthesis in the four CNS regions considered. Nevertheless, the same morphine dose did induce a highly significant (P less than 0.005) reduction in the increase in 5-HT synthesis induced by the nociceptive stimulus, both in the dorsal cord and in the brainstem. Such an effect was not seen in the ventral cord. The specificity of these morphine effects was demonstrated by their naloxone reversibility; on the other hand, naloxone alone failed to modify the stimulus-induced increase in 5-HT synthesis seen in the dorsal cord and the brainstem. The results, particularly those concerning the dorsal cord, are discussed with reference to pain mechanisms and morphine
analgesia
. They suggest that peripheral nociceptive messages induce an increased activity in some bulbo-spinal 5-HT pathways and that a low dose of morphine can counteract such an effect. It is proposed that exogenous opiates exert a complex regulation of bulbo-spinal 5-HT pathways. Functional significances of these processes are discussed.
...
PMID:Increase in 5-HT synthesis in the dorsal part of the spinal cord, induced by a nociceptive stimulus: blockade by morphine. 672 43
Morphine
analgesia
measured by the tail withdrawal test was examined in rats that were either restrained or left free during testing. It was found that restraint potentiated morphine
analgesia
and decreased the latency of the peak analgesic effect. Methysergide, a serotonin antagonist, and valine, which prevents the increase in brain
tryptophan
induced by restraint, blocked the effect of restraint on morphine
analgesia
. Valine did not alter
analgesia
in unrestrained rats. An increase in brain
tryptophan
uptake induced by stress is suggested as a possible mechanism by which stress can interact with pain modulation systems.
...
PMID:Evidence that stress augments morphine analgesia by increasing brain tryptophan. 672
Studies are described on the effect of plasma
tryptophan
changes on brain 5HT synthesis in man and rat. Results show that human brain 5HT synthesis is influenced by the supply of
tryptophan
to the brain. This is indicated by: (a) significant correlations between plasma free
tryptophan
and CSF 5HIAA concentrations; (b) raised cortical 5HT concentrations after infusing
tryptophan
. In rat experiments, determinations of brain
tryptophan
uptake from a bolus of plasma injected into the carotid artery showed: (a) increased uptake when bolus free
tryptophan
was raised and total
tryptophan
kept constant; (b) unchanged uptake when bolus free
tryptophan
was kept constant and total
tryptophan
decreased. Brain
tryptophan
uptake from a buffer bolus was decreased by large neutral amino acids. Plasma total
tryptophan
could be rapidly decreased and free
tryptophan
increased by briefly disturbing food deprived rats. When free
tryptophan
concentration rose markedly there was an associated increase of brain
tryptophan
and 5HT turnover. Studies of shock provoked
analgesia
in rats and cortical evoked potentials in man both suggest that physiological variations of serotonergic activity are sufficient to influence these measures. This raises the possibility that moderate changes of
tryptophan
supply to the brain could, in some circumstances, alter serotonergic activity.
...
PMID:Influence of plasma tryptophan on brain 5HT synthesis and serotonergic activity. 731 2
The effects of L-tyrosine (L-TYR) on the analgesic activity of several opioids were determined utilizing a hot-plate test. L-TYR (200 mg/kg) significantly potentiated (P < .05) the analgesic activity of morphine sulfate (10 mg/kg) and codeine sulfate (30 mg/kg). The opioid-induced
analgesia
and its potentiation by L-TYR was abolished by naloxone pretreatment. Increasing the dose of L-TYR (25-200 mg/kg) resulted in a dose-dependent potentiation of morphine-induced
analgesia
. The observed potentiation was positively correlated with increases in brain TYR concentrations; blockade of L-TYR uptake into the brain by the coadministration of L-valine attenuated this potentiation. With the exception of L-
tryptophan
, all other L-amino acids, as well as D-TYR, failed to mimic the potentiating action of L-TYR. As determined by alpha-methyl-p-TYR pretreatment, the L-TYR-induced potentiation was dependent upon increased catecholamine synthesis. These results demonstrate that L-TYR dose dependently potentiates the analgesic activity of opioids and are consistent with the requirement of the central conversion of L-TYR to catecholamines via TYR hydroxylase for this response.
...
PMID:L-tyrosine potentiation of opioid-induced analgesia utilizing the hot-plate test. 801 63
The effects of the methyl esters of L-tyrosine (L-Tyr-OMe) and L-
tryptophan
(
L-Trp
-OMe) on the analgesic action of trans-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidin)cyclohexyl]-benzene acetamide methane sulfonate (U-50,488H), a kappa-opioid receptor agonist, were determined in male Swiss-Webster mice using the tail-flick test. Intraperitoneal injections of U-50,488H produced a dose-dependent analgesic response. The analgesic response to all doses of U-50,488H was potentiated by L-Tyr-OMe at 200 mg/kg injected intraperitoneally 30 min prior to the injection of U-50,488H. The effect of various doses of L-Tyr-OMe (50, 100 and 200 mg/kg) on the
analgesia
produced by 20 mg/kg of U-50,488H was also determined. The lowest dose (50 mg/kg) of L-Tyr-OMe did not modify U-50,488H-induced
analgesia
but the two higher doses enhanced it significantly. L-Tyr-OMe by itself at all the doses tested had no effect on the tail-flick latency.
L-Trp
-OMe (200 mg/kg) enhanced the analgesic action of 10 and 20 mg/kg doses of U-50,488H but not that induced by a 5 mg/kg dose. The
analgesia
induced by 20 mg/kg of U-50,488H was potentiated by
L-Trp
-OMe at 100 and 200 mg/kg but not by a 50 mg/kg dose.
L-Trp
-OMe by itself also did not alter the tail-flick latency. Previously, the studies in this laboratory have shown that L-Try-OMe potentiates morphine, a mu-opioid receptor agonist-induced
analgesia
.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Enhancement of a kappa-opioid receptor agonist-induced analgesia by L-tyrosine and L-tryptophan. 808 53
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