UMLS:C0917801 - FACTA Search

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Query: UMLS:C0917801 (insomnia)
10,606 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A sleep-promoting function for the rostral hypothalamus was initially inferred from the presence of chronic insomnia following damage to this brain region. Subsequently, it was determined that a unique feature of the preoptic hypothalamus and adjacent basal forebrain is the presence of neurons that are activated during sleep compared to waking. Preoptic area "sleep-active" neurons have been identified by single and multiple-unit recordings and by the presence of the protein product of the c-Fos gene in the neurons of sleeping animals. Sleep-active neurons are located in several subregions of the preoptic area, occurring with high density in the ventrolateral preoptic area (vlPOA) and the median preoptic nucleus (MnPN). Neurons in the vlPOA contain the inhibitory neuromodulator, galanin, and the inhibitory neurotransmitter, GABA. A majority of MnPN neurons activated during sleep contain GABA. Anatomical tracer studies reveal projections from the vlPOA and MnPN to multiple arousal-regulatory systems in the posterior and lateral hypothalamus and the rostral brainstem. Cumulative evidence indicates that preoptic area neurons function to promote sleep onset and sleep maintenance by inhibitory modulation of multiple arousal systems. Recent studies suggest a role for preoptic area neurons in the homeostatic aspects of the regulation of both rapid eye movement (REM) and non-REM (NREM) sleep and as a potential target for endogenous somnongens, such as cytokines and adenosine.
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PMID:Hypothalamic control of sleep. 1746 47

Indiplon [N-methyl-N-[3-[3-(2-thienylcarbonyl)-pyrazolo[1,5-alpha]pyrimidin-7-yl]phenyl]acetamide; NBI 34060] is a positive allosteric GABA(A) receptor modulator that is under development for the treatment of insomnia. This study compared the abuse potential of indiplon, a compound with preferential affinity for GABA(A) receptors containing an alpha(1) subunit, with triazolam in 21 volunteers with histories of drug abuse. Placebo, triazolam (0.25, 0.5, and 0.75 mg), and indiplon (30, 50, and 80 mg) were studied in counterbalanced order under double-blind conditions at two different residential research facilities. Both drugs impaired psychomotor and cognitive performance and produced similar dose-related increases in participant and observer ratings of drug strength. The onset of action of both drugs was rapid (30 min); however, the duration of action of indiplon (3-4 h) was shorter than that of triazolam (4-6 h). The profiles of subjective effects of triazolam and indiplon were similar; however, a maximum of 52% of participants identified indiplon as a benzodiazepine or barbiturate, compared with 81% of participants after 0.75 mg of triazolam. On participantrated subjective effects relevant to sedation, the slope of the triazolam dose-effect curve was significantly steeper than that of indiplon. Neither the largest doses of indiplon and triazolam nor the slope of the indiplon and triazolam dose-effect curves were significantly different from each other on any of the same-day or next-day measures of positive drug effects or next-day measures of reinforcing effects. Together, these data suggest that although the abuse potential of indiplon is not different from that of triazolam at these doses, psychomotor and cognitive impairment after large doses of indiplon might be less.
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PMID:Relative abuse liability of indiplon and triazolam in humans: a comparison of psychomotor, subjective, and cognitive effects. 1750 31

Thirty-four experts and a literature supervisor got together in order to reach a 'consensus' regarding the definition, diagnosis and pharmacological treatment of insomnia. Insomnia is a subjective perception of dissatisfaction with the amount and/or quality of sleep. It includes difficulty in initiating or maintaining sleep or early awakening with inability to fall asleep again. It is associated with complaints of non-restorative sleep and dysfunction of diurnal alertness, energy, cognitive function, behaviour or emotional state, with a decrease in quality of life. The diagnosis is based on clinical and sleep history, physical examination and additional tests, although polysomnography is not routinely indicated. Therapy should include treatment of the underlying causes, cognitive and behavioural measures and drug treatment. Hypnotic therapy can be prescribed from the onset of insomnia and non-benzodiazepine selective agonists of the GABA-A receptor complex are the drugs of first choice. It is recommended that hypnotic treatment be maintained in cases where withdrawal impairs the patient's quality of life and when all other therapeutic measures have failed. Experience suggests that intermittent treatment is better than continuous therapy. The available data do not confirm safety of hypnotics in pregnancy, lactation and childhood insomnia. Benzodiazepines are not indicated in decompensated chronic pulmonary disease but no significant adverse effects on respiratory function have been reported with zolpidem and zopiclone in stable mild to moderate chronic obstructive pulmonary disease and in treated obstructive sleep apnoea syndrome. Data for zaleplon are inconclusive. If the patient recovers subjective control over the sleep process, gradual discontinuation of hypnotic treatment can be considered.
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PMID:Consensus on drug treatment, definition and diagnosis for insomnia. 1753 48

Valerian is a commonly used herbal medicinal product for the treatment of anxiety and insomnia. Here we report the stimulation of chloride currents through GABA(A) receptors (I(GABA)) by valerenic acid (VA), a constituent of Valerian. To analyse the molecular basis of VA action, we expressed GABA(A) receptors with 13 different subunit compositions in Xenopus oocytes and measured I(GABA) using the two-microelectrode voltage-clamp technique. We report a subtype-dependent stimulation of I(GABA) by VA. Only channels incorporating beta(2) or beta(3) subunits were stimulated by VA. Replacing beta(2/3) by beta(1) drastically reduced the sensitivity of the resulting GABA(A) channels. The stimulatory effect of VA on alpha(1)beta(2) receptors was substantially reduced by the point mutation beta(2N265S) (known to inhibit loreclezole action). Mutating the corresponding residue of beta(1) (beta(1S290N)) induced VA sensitivity in alpha(1)beta(1S290N) comparable to alpha(1)beta(2) receptors. Modulation of I(GABA) was not significantly dependent on incorporation of alpha(1), alpha(2), alpha(3) or alpha(5) subunits. VA displayed a significantly lower efficiency on channels incorporating alpha(4) subunits. I(GABA) modulation by VA was not gamma subunit dependent and not inhibited by flumazenil (1 microM). VA shifted the GABA concentration-effect curve towards lower GABA concentrations and elicited substantial currents through GABA(A) channels at > or = 30 microM. At higher concentrations (> or = 100 microM), VA and acetoxy-VA inhibit I(GABA). A possible open channel block mechanism is discussed. In summary, VA was identified as a subunit specific allosteric modulator of GABA(A) receptors that is likely to interact with the loreclezole binding pocket.
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PMID:Valerenic acid potentiates and inhibits GABA(A) receptors: molecular mechanism and subunit specificity. 1758 57

GABA(A) receptors are the major inhibitory neurotransmitter receptors in the mammalian brain, implicated in anxiety, depression, epilepsy, insomnia, and learning and memory. Here, we present several lines of evidence for involvement of the GABAergic system, and in particular the GABA(A) receptor-mediated function, in fragile X syndrome, the most common form of inherited mental retardation. We argue that an altered expression of the GABA(A) receptor has neurophysiologic and functional consequences that might relate to the behavioural and neurological phenotype associated with fragile X syndrome. Interestingly, some neuropsychiatric disorders, such as anxiety, epilepsy and sleep disorders, are effectively treated with therapeutic agents that act on the GABA(A) receptor. Therefore, the GABA(A) receptor might be a novel therapeutic target for fragile X syndrome.
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PMID:The GABAA receptor: a novel target for treatment of fragile X? 1759 Apr 48

A variety of molecules with novel mechanisms of action are currently being evaluated for their potential as treatments for sleep disorders. The GABA-A receptor complex remains an important target for hypnotic drugs (eg gaboxadol, indiplon). However, drugs acting through histamine, calcium channels and serotonin receptors may also be of interest for the treatment of insomnia. In the case of the 5HT2A subtype of serotonin receptors, several molecules which improve sleep maintenance and modify sleep architecture by increasing slow wave sleep are currently being tested (eg eplivanserin). Two new drugs with efficacy in excessive sleepiness (modafinil, sodium oxybate) have improved the treatment of this condition. However, the mechanisms of action of these agents are poorly understood. The recent discovery of the hypocretin arousal system in the hypothalamus may aid the identification of additional new drugs. An agonist at receptors for the pineal hormone melatonin is available in some countries (ramelteon) but is currently used only for the treatment of insomnia associated with difficulties of sleep onset. Additional melatonin receptor agonists are being developed and may have potential for treating several conditions including circadian rhythm disorders and depression.
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PMID:New perspectives for the treatment of disorders of sleep and arousal. 1765 96

Sedative-hypnotic medications, including benzodiazepines and non-benzodiazepines, are usually prescribed for the insomniac patients; however, the addiction, dependence and adverse effects of those medications have drawn much attention. In contrast, suanzaorentang, a traditional Chinese herb remedy, has been efficiently used for insomnia relief in China, although its mechanism remains unclear. This study was designed to further elucidate the underlying mechanism of suanzaorentang on sleep regulation. One ingredient of suanzaorentang, zizyphi spinosi semen, exhibits binding affinity for serotonin (5-hydroxytryptamine, 5-HT) receptors, 5-HT(1A) and 5-HT(2), and for GABA receptors. Our previous results have implicated that GABA(A) receptors, but not GABA(B), mediate suanzaorentang-induced sleep alteration. In current study we further elucidated the involvement of serotonin. We found that high dose of suanzaorentang (4 g/kg/2 ml) significantly increased non-rapid eye movement sleep (NREMS) when comparing to that obtained after administering starch placebo, although placebo at dose of 4 g/kg also enhanced NREMS comparing with that obtained from baseline recording. Rapid eye movement sleep (REMS) was not altered. Administration of either 5-HT(1A) antagonist (NAN-190), 5-HT(2) antagonist (ketanserin) or 5-HT(3 )antagonist (3-(4-Allylpiperazin-1-yl)-2-quinoxalinecarbonitrile) blocked suanzaorentang-induced NREMS increase. These results implicate the hypnotic effect of suanzaorentang and its effects may be mediated through serotonergic activation, in addition to GABAergic system.
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PMID:The involvement of serotonin receptors in suanzaorentang-induced sleep alteration. 1765 85

Animal and human pharmacological studies indicate that the antipsychotic action of cyamemazine results from blockade of dopamine D(2) receptors, its anxiolytic properties from serotonin 5-HT(2C) receptor antagonism and the low incidence of extrapyramidal side effects from a potent 5-HT(2A) receptor antagonistic action. Cyamemazine is metabolized in monodesmethyl cyamemazine and cyamemazine sulfoxide, which are not known for their affinities for serotonin, dopamine and other brain receptor types considered to mediate central nervous systems effects of drugs. Hence, metabolite affinities were determined in human recombinant receptors expressed in CHO cells (hD(2) and hD4.4 receptors, h5-HT(1A), h5-HT(2A), h5-HT(2C) and h5-HT(7) receptors and hM(1), hM(2) and hM(3) receptors) and HEK-293 cells (h5-HT(3) receptors) or natively present in rat cerebral cortex (non-specific alpha(1)- and alpha(2)-adrenoceptors, GABA(A) and GABA(B) receptors) and guinea pig cerebellum (H(1) central histamine receptors) membranes. Monodesmethyl cyamemazine showed a neurotransmitter receptor profile similar to that of its parent compound cyamemazine, i.e.: high affinity for h5-HT(2A) receptors (K(i)=1.5 nM), h5-HT(2C) receptors (K(i)=12 nM) and hD(2) receptors (K(i)=12 nM). Cyamemazine sulfoxide showed high affinity for h5-HT(2A) receptors (K(i)=39 nM) and histamine H(1) receptors (K(i)=15 nM) and a reduced affinity for D(2) and 5-HT(2C) receptors. Therefore, monodesmethyl cyamemazine can contribute to enhance and prolong the therapeutic actions of cyamemazine. Further investigation is required to see if the high affinities of cyamemazine sulfoxide for H(1) and 5-HT(2A) receptors are of therapeutic benefit against sleep onset insomnia and/or sleep maintenance insomnia respectively.
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PMID:Affinity of cyamemazine metabolites for serotonin, histamine and dopamine receptor subtypes. 1793 50

Many lines of evidence indicate that GABA and GABA(A) receptors make important contributions to human sleep regulation. Pharmacological manipulation of these receptors has differential effects on sleep onset and sleep maintenance insomnia. Here we show that sleep is regulated by GABA in Drosophila and that a mutant GABA(A) receptor, Rdl(A302S), specifically decreases sleep latency. The drug carbamazepine (CBZ) has the opposite effect on sleep; it increases sleep latency as well as decreasing sleep. Behavioral and physiological experiments indicated that Rdl(A302S) mutant flies are resistant to the effects of CBZ on sleep latency and that mutant RDL(A302S) channels are resistant to the effects of CBZ on desensitization, respectively. These results suggest that this biophysical property of the channel, specifically channel desensitization, underlies the regulation of sleep latency in flies. These experiments uncouple the regulation of sleep latency from that of sleep duration and suggest that the kinetics of GABA(A) receptor signaling dictate sleep latency.
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PMID:Modulation of GABAA receptor desensitization uncouples sleep onset and maintenance in Drosophila. 1822 47

Insomnia is a disorder that affects a large part of the population. Agents that are used to treat this sleep disorder have evolved: benzodiazepines replaced barbiturates, but there is still concern about their residual effects and about the development of dependence and the risk of withdrawal symptoms. Currently the benzodiazepines receptor agonists (zolpidem, zaleplon, zopiclone and eszopiclone) are the agents most widely prescribed. Pharmaceutical technology and the advances in the knowledge of sleep physiology have led to the availability of some novelties like modified release zolpidem (indicated not only to initiate but also to maintain sleep., ramelteon and agomelatine (melatonine receptors agonists). This article summarises these subjects as well as the pharmacology of investigational drugs, such as indiplon (another benzodiazepine receptor agonist), gaboxadol ( a selective extrasynaptic GABAA agonist -SEGA-), and some anticonvulsant drugs that could be useful as hypnotics: tiagabine ( a GABA transporter inhibitor), pregabaline and gabapentine (GABA analogs). The possible usefulness of 5-HT2A/2C antagonists is also addressed.
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PMID:[New hypnotics: perspectives from sleep physiology]. 1826 73

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