Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0917801 (insomnia)
 10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Methamphetamine (METH), administered in large, repeated doses, compromises the dopaminergic and serotonergic systems as indicated by prolonged suppression of tyrosine hydroxylase and tryptophan hydroxylase activity and concurrent decreases in the content of dopamine and 5-hydroxytryptamine. Because dopamine is necessary for these dopaminergic and serotonergic deficits we postulated that dopamine and/or its reactive metabolites are responsible for these degenerative alterations. Because we previously demonstrated that in vitro reducing conditions reverse the decrease in tryptophan hydroxylase activity, we reasoned that melatonin, a purported endogenous antioxidant, may alter this response. Rats were treated with METH and/or melatonin and trytophan hydroxylase activity and 5-hydroxytryptamine content were assessed; tyrosine hydroxylase activity and dopamine content were also measured. Not only did melatonin not prevent METH-induced deficits in serotonergic and dopaminergic parameters, but coadministration of melatonin with METH actually enhanced most of the monoaminergic effects of METH. This enhancing effect could not be attributed to alteration of body temperature. Because METH abuse causes insomnia and melatonin is promoted in some countries for insomnia, the implications of the interaction between these two drugs could be clinically important.
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PMID:Exacerbation of methamphetamine-induced neurochemical deficits by melatonin. 935 79

The neuropeptide hypocretin, also known as orexin, has been implicated in waking since its deletion leads to the sleep disorder narcolepsy. Hypocretin neurons project to major arousal areas, and in an effort to determine which region is responsible for the changes in sleep-wake architecture we have developed the neurotoxin hypocretin2-saporin, which lesions hypocretin receptor bearing neurons. Here, in rats, we investigate the effects of hypocretin2-saporin lesions of the substantia nigra and ventral tegmental area in the regulation of sleep and wakefulness. Bilateral injection of hypocretin2-sap into both the ventral tegmental area and substantia nigra (92 and 184 ng/microl, 0.25 microl in the ventral tegmental area and 0.5 microl in the substantia nigra) or into the substantia nigra alone (184 ng/microl, 0.5 microl) produced insomnia. The insomnia seemed to be associated with a large increase in locomotion on days 4 and 6 postinjection, as hyperactivity and stereotypic movements were consistently observed on the video recordings in all lesioned rats. In these rats, a nearly complete loss of both tyrosine hydroxylase and neuron-specific nuclear protein (neuronal nuclei) immunoreactive cells in the substantia nigra as well as diminution of tyrosine hydroxylase-immunoreactive fibers in the caudate putamen was found. Following bilateral injection of hypocretin2-sap at a lower concentration (46 ng/microl, 0.25 microl in the ventral tegmental area and 0.5 microl in the substantia nigra), very little reduction in the number of tyrosine hydroxylase- and neuronal nuclei-immunoreactive neurons and only a temporary increase in wakefulness (17.4% increase during light-off period on day 6 postinjection) were observed. Ventral tegmental area lesions (184 ng/mul of hypocretin2-sap, 0.25 microl, bilateral injections) did not produce significant changes in sleep, although most of the tyrosine hydroxylase- and neuronal nuclei-immunoreactive neurons in the ventral tegmental area were destroyed. Insomnia following hypocretin2-sap lesions of the substantia nigra could be secondary to increased motor activity resulting from reduction of tonic inhibitory control by the substantia nigra.
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PMID:Insomnia following hypocretin2-saporin lesions of the substantia nigra. 1628 83

Restless legs syndrome is a sleep-related sensorimotor neurological disease affecting up to 10% of the population. Genetic analyses have identified Myeloid Ecotropic viral Integration Site 1 (MEIS1), a transcriptional regulator, to be associated with not only the restless legs syndrome but also self-reported symptoms of insomnia and sleep. This study is to determine if Meis1 deficiency in mice can lead to restless legs syndrome-like phenotypes, and if it is the case, what the underlying mechanisms are. We used two genetic model systems, Caenorhabditis elegans and mice. Egg retention assay and fluorescent reporters were used with C. elegans. For mice, we performed behavioral tests, serum and brain iron detection, qRT-PCR, western blot, immunohistochemistry, and in vitro brain-slice recording. Our results showed that with C. elegans, the function of dop-3, an orthologue of DRD2, was diminished after the knockdown of unc-62, an ortholog of MEIS1. Additionally, unc-62 knockdown led to enhanced transcription of the orthologue of tyrosine hydroxylase, cat-2. Meis1 knockout mice were hyperactive and had a rest-phase-specific increased probability of waking. Moreover, Meis1 knockout mice had increased serum ferritin and altered striatal dopaminergic and cholinergic systems. Specifically, Meis1 knockout mice showed an increased mRNA level but decreased protein level of tyrosine hydroxylase in the striatum. Furthermore, Meis1 knockout mice had increased striatal dopamine turnover and decreased spontaneous firing regularity of striatal cholinergic interneurons. Our data suggest that Meis1 knockout mice have restless legs syndrome-like motor restlessness and changes in serum ferritin levels. The symptoms may be related to dysfunctional dopaminergic and cholinergic systems.
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PMID:Deficiency of Meis1, a transcriptional regulator, in mice and worms: Neurochemical and behavioral characterizations with implications in the restless legs syndrome. 3291 Apr 73