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:C0027066 (myoclonus)
4,275 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Intracisternal injection of 5,7-dihydroxytryptamine (5,7-DHT) following treatment with desmethylimipramine induced development of behavioral supersensitivity to the intraperitoneally administered serotonin precursor 5-hydroxytryptophan (5-HTP) in the mouse. This behavioral syndrome, characterized by tremor and muscle twitches (myoclonus), showed a clear dose-response relationship with 5,7-DHT as well as with 5-HTP. Mice lesioned with a low dose of 5,7-DHT (20 micrograms) or a placebo were treated repeatedly with a protein synthesis inhibitor, sycloheximide (45 mg/kg, s.c., every 12 h for up to 10 days). This treatment resulted in a reversible decrease of cerebral protein synthesis varying between 70 and 20% with time between treatments. The myoclonic response to 5-HTP in animals pretreated with 5,7-DHT and by cycloheximide showed a decrease in intensity within 24 h when evaluated quantitatively by an electronic activity monitor, the results of which were confirmed by direct observation. Cycloheximide also exerted a similar, though smaller, effect following full development of sensitivity to 5-HTP over 10 days. These effects may de mediated by inhibition of rapidly turning over serotonin receptor proteins, although their interpretation is somewhat obscured by possible toxic effects of cycloheximide.
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PMID:Inhibition of 5,7-dihydroxytryptamine-induced supersensitivity to 5-hydroxytryptophan in mice by treatment with cycloheximide. 31 Mar 31

The administration of veratramine produced generalized tremor, myoclonus, hindlimb abduction, backward gait and Straub tail, similar to the "5-hydroxytryptamine (5-HT) syndrome", in mice. Pretreatment with metergoline, methysergide, mainserin or cyproheptadine ameliorated veratramine-induced myoclonus and tremor. For suppression of other symptoms, mianserin and cyproheptadine were effective. Metergoline improved hindlimb abduction and Straub tail, but did not inhibit backward gait. Methysergide was ineffective for the remaining symptoms. 5-Methoxy-N,N-dimethyltryptamine (5-MeODMT) enhanced all these symptoms except for Straub tail. 8-Hydroxy-2-[di-n-propylamino] tetralin hydrobromide (8-OH-DPAT) augmented tremor, hindlimb abduction and backward gait, but did not influence myoclonus and Straub tail. 5-Methoxy-3[1,2,3,6-tetrahydropyridin-4-yl] 1H-indole (RU 24969) did not modify the symptoms. Destruction of 5-HT neurons using 5,6-dihydroxytryptamine (5,6-DHT) resulted in suppression of the syndrome. The denervation supersensitivity caused by 5,6-DHT did not increase the response to veratramine. These findings indicate that part of the site of action of veratramine may be the presynaptic 5-HT neurons.
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PMID:Veratramine-induced behavior associated with serotonergic hyperfunction in mice. 171 Feb 97

To study the involvement of serotonin (5-HT) receptor subtypes in behavioral supersensitivity following neonatal 5,7-dihydroxytryptamine (5,7-DHT) lesions, we measured acute behavioral responses to a single dose of selective 5-HT1A (8-OH-DPAT) or 5-HT2,1C (DOI) agonist compared to 5-hydroxytryptophan (5-HTP) in rats injected with 5,7-DHT intraperitoneally or intracisternally 14 weeks earlier. Only intraperitoneal 5,7-DHT injection resulted in brainstem 5-HT hyperinnervation, but cortical 5-HT depletions were also less. Effects of DOI, such as shaking behavior and forepaw myoclonus, were enhanced by 5,7-DHT lesions made intracisternally not intraperitoneally, whereas 8-OH-DPAT-evoked behaviors, such as forepaw myoclonus and head weaving, were enhanced more by the intraperitoneal route. The main consequence of intraperitoneal compared to intracisternal 5,7-DHT injection on supersensitivity to 5-HT agonists was increased presynaptic 5-HT1A responses and decreased 5-HT2,1C responses. In contrast, 5-HTP evoked more shaking behavior and less of the serotonin syndrome with the intraperitoneal compared to the intracisternal route of 5,7-DHT injection. Behavioral supersensitivity to 5-HTP, which was attributable to 5-HT1A, 5-HT2,1C, and possibly to other 5-HT receptors, was orders of magnitude greater than that elicited by direct receptor agonists and more clearly differentiated between rats with 5,7-DHT lesions and their controls, and between routes of 5,7-DHT injections, than responses to 5-HT agonists at the dose studied. 5,7-DHT induced dysregulation of 5-HT receptors, including both presynaptic and postsynaptic changes and altered interactions between receptor subtypes, better explains these data than postsynaptic changes alone.
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PMID:The functional significance of neonatal 5,7-dihydroxytryptamine lesions in the rat: response to selective 5-HT1A and 5-HT2,1C agonists. 214 15

"Denervation supersensitivity" of serotonin (5-HT) receptors has been proposed to explain the behavioral supersensitivity to 5-hydroxytryptophan (5-HTP) which develops after lesions of indoleamine neurons with 5,7-dihydroxytryptamine (5,7-DHT). To examine the possible role of receptor recognition sites and second messenger activity in supersensitivity, we measured regional 5-HT2 receptor ligand binding and 5-HT-stimulated phosphoinositide turnover in adult rats with 5,7-DHT lesions made by intracisternal injection and their saline-treated controls. In [3H]ketanserin binding studies of fresh brain tissue two weeks after 5,7-DHT injection, there were no significant changes in frontal cortex, brainstem, or spinal cord in Bmax, Kd, or nH of 5-HT2 receptors, 5,7-DHT lesions did not affect basal levels of [3H]inositol phosphate (IP) accumulation but significantly increased 5-HT-stimulated [3H]IP accumulation in the brainstem (+27%) and cortex (+23%). Because brainstem rather than cortex is involved in 5-HTP-evoked myoclonus, increased 5-HT-stimulated phosphoinositide hydrolysis in brainstem following 5,7-DHT lesions in the rat may be relevant to serotonergic behavioral supersensitivity.
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PMID:Regional central serotonin-2 receptor binding and phosphoinositide turnover in rats with 5,7-dihydroxytryptamine lesions. 215 84

Milacemide, a glycine prodrug that is able to enter the brain readily, has been shown to have an antimyoclonic property in the p,p'-DDT-induced myoclonus syndrome. Milacemide increased regional 5-HT and dopamine and decreased 5-HIAA, DOPAC and HVA levels in naive rats. In p,p'-DDT-treated rats, 5-HT levels were unchanged at the time the rats experienced spontaneous myoclonus in all brain regions except in the striatum, where it increased. 5-HIAA levels increased but did not reach significant levels except in the striatum. Dopamine, DOPAC, HVA and norepinephrine were unchanged. When rats were treated concurrently with both p,p'-DDT and milacemide, regional 5-HT levels were increased and NE levels in the brainstem and cerebellum decreased. Depletion of brain serotonin by pretreatment with PCPA or with 5,7-DHT, or blocking 5-HT receptors with different 5-HT antagonists, failed to eliminate the antimyoclonic property of milacemide. This antimyoclonic effect of milacemide may be mediated through other mechanisms besides its ability to increase brain 5-HT levels. Possible mechanisms to be considered are its antiepileptic property, and its ability to increase brain glycine levels. Milacemide may have potential for therapeutic trials in patients with myoclonus.
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PMID:Milacemide increases 5-hydroxytryptamine and dopamine levels in rat brain--possible mechanisms of milacemide antimyoclonic property in the p,p'-DDT-induced myoclonus. 257 9

Rat pups were injected intracisternally (i.c.) or intraperitoneally (i.p.) with 5,7-dihydroxytryptamine (5,7-DHT) or saline and challenged 2 and 14 weeks later with the 5-HT precursor 5-hydroxytryptophan (5-HTP), which evokes behavioral supersensitivity in adult rats, 5,7-DHT induced transient postinjection convulsions in rats injected i.c. but not i.p. Rats with either type of 5,7-DHT lesions displayed supersensitive behavioral responses to 5-HTP. However, rats lesioned by i.p. injections exhibited significantly greater shaking behavior (+1445%) in response to 5-HTP than their i.c. counterparts, who instead showed more forepaw myoclonus (+250%) and head weaving (+270%), the core features of the 5-HT syndrome. Differences in 5-HT syndrome behaviors were already present 2 weeks after lesioning, whereas the difference in shaking behavior was not. After 14 weeks, 5-HT was selectively depleted (-43 to -92%) in hippocampus, spinal cord, and frontal cortex, and differences between i.c. and i.p. 5,7-DHT routes were insignificant except in frontal cortex. Brainstem 5-HT concentrations were significantly increased (+35%) after i.p. 5,7-DHT injections in contrast to reduction (-89%) after i.c. 5,7-DHT; 5-hydroxyindole acetic acid/5-hydroxytryptamine (5-HIAA/5-HT) ratios were decreased (-20%) with either route. These data suggest that brainstem 5-HT hyperinnervation following i.p. 5,7-DHT injection modifies the functional consequences of injury in abating the 5-HT syndrome, but does not result in complete recovery since shaking behavior is enhanced. Loss of presynaptically mediated autoregulation or receptor dysregulation may play a major role in behavioral supersensitivity induced by 5-HTP in rats with 5,7-DHT lesions. To the extent that the 5-HT syndrome is mediated by 5-HT1A receptors and shaking behavior by 5-HT2 sites, differential responses to injury of 5-HT1A and 5-HT2 receptors may contribute to these behavioral differences.
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PMID:Brainstem serotonergic hyperinnervation modifies behavioral supersensitivity to 5-hydroxytryptophan in the rat. 258 10

There have been few previous studies of the functional significance of 5,7-dihydroxytryptamine (5,7-DHT) lesions made in neonatal rats. To study the role of serotonin (5-HT) in recovery of function, rat pups and adult rats were injected intracisternally with 5,7-DHT or saline and challenged acutely with the 5-HT precursor 5-hydroxytryptophan (5-HTP) 4 weeks later as a test of behavioral supersensitivity. Compared to 5,7-DHT lesions in adults, neonatal lesions induced significantly greater 5-HT depletions in brainstem, but 5-HT depletions in other regions were not significantly different in the two groups. Rats with early 5,7-DHT lesions displayed supersensitive behavioral responses to 5-HTP, consisting of all the component myoclonic-serotonergic behaviors seen in rats with 5,7-DHT lesions made as adults. However, there was significantly less 5-HTP-evoked head weaving, truncal myoclonus and shaking behavior in rats treated with 5,7-DHT as neonates. Body weight was reduced both in rats with early and late 5,7-DHT lesions, but reduction persisted in rats with early lesions. These data indicate overall similarity with some differences between neurochemical and behavioral effects of early and late 5,7-DHT lesions made by the intracisternal route. They suggest that recovery mechanisms did not occur or failed to reverse the neurochemical or behavioral consequences of early 5,7-DHT lesions.
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PMID:Intracisternal 5,7-dihydroxytryptamine lesions in neonatal and adult rats: comparison of response to 5-hydroxytryptophan. 278 68

Myoclonus could not be induced in rats with either L-5-HTP alone or hypoxia. Following amine depletion or destruction of the serotonin neurons with 5,7-DHT, myoclonus appeared as part of a complex serotonergic behavioral syndrome induced by serotonin agonists. On the other hand, in the guinea pig, L-5-HTP induces a pure myoclonic syndrome in a dose-dependent fashion. Myoclonus also was induced by injection of serotonin into the dorsal pons of the guinea pig. This is additional evidence confirming the importance of the brainstem structures in the L-5-HTP guinea pig model of myoclonus. Deoxyglucose (DG) autoradiography in guinea pigs following systemic L-5-HTP administration demonstrated increased glucose metabolism within thalamic and third nerve nuclei, with decreased metabolism in the cortex, and the molecular layer of the hippocampus. Since serotonin is an inhibitory transmitter, we hypothesize that the decreases observed in cortex may be the result of direct serotonergic inhibition, whereas the increases observed in the thalamus probably represent indirect effects via polysynaptic pathways.
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PMID:Serotonin models of myoclonus in the guinea pig and rat. 348 58

An abnormality of serotonergic neurotransmission has been hypothesized in p,p'-DDT intoxication to explain myoclonus and the antimyoclonic properties of 5-hydroxytryptophan (5-HTP). To study the role of serotonin (5-HT) receptors in myoclonus induced by p,p'-DDT in the rat, we performed time-course and dose-response studies of the effects of p,p'-DDT on behavior and regional 5-HT1 and 5-HT2 binding sites. At a time when low dose (80 mg/kg) p,p'-DDT elicited stimulus-sensitive and spontaneous myoclonus, there were no significant changes in Bmax or Kd of 5-HT1A, 5-HT1B, 5-HT1C sites in cortex, striatum, brainstem or spinal cord, agonist- or antagonist-labelled 5-HT2 sites in cortex, or 5-HT uptake sites. High dose p,p'-DDT (1000 but not 500 mg/kg), which also induced convulsions, only slightly increased 5-HT1 (unsubtyped) binding sites in cortex but not in brainstem or spinal cord and had no effect on antagonist-labelled 5-HT2 sites. In naive frontal cortex in vitro, 1 microM p,p'-DDT displaced neither [3H]5-HT or [3H]ketanserin specific binding. Lesions of central indoleamine neurons made with 5,7-dihydroxytryptamine significantly prolonged the latency and attenuated the severity of p,p'-DDT behavioral abnormalities, increasing the dose of p,p'-DDT which induced myoclonus (MD50) or convulsions (CD50) in 50 percent of the rats. This is the first report of 5,7-DHT-induced attenuation in the p,p'-DDT myoclonic model.
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PMID:p,p'-DDT myoclonic/epileptic model: serotonin receptor binding and behavioral studies in the rat. 799 Dec 14

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