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)

Melatonin, or N-acetyl 5-methoxytryptamine, a neurohormone produced in the pineal gland during periods of darkness, plays a key role in the regulation of circadian and seasonal biological rhythms. In mammals, specific MT1 and MT2 receptors are located in the central nervous system, mainly in suprachiasmatic nuclei, and also in a number of peripheral sites. Besides its chronobiotic action on light-dependant functions, such as sleep/waking alternance or seasonal depression, melatonin exerts modulatory effects on immune, endocrine and metabolic functions. However, its short half-life and extensive metabolism lead to a poor bioavailability. This prompted to search for metabolically stable analogs displaying new and innovative properties. The S 20098 compound, a melatoninergic agonist, has proven potent antidepressive and anxiolytic actions. The S 20928 compound, a melatonin antagonist, was shown to enhance basal metabolism and reduce weight gain. Thus, both of these melatonin derivatives open perspectives for the development of innovative therapeutic agents in the fields of depression and obesity.
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PMID:[Melatoninergic receptor agonists and antagonists: pharmacological aspects and therapeutic perspective]. 1629 32

Despite the advances of recent decades, there is still an urgent need for antidepressants with improved efficacy, safety and tolerability. Agomelatine is a new antidepressant with an innovative pharmacological profile. It is the first melatonergic antidepressant, and is a potent agonist of melatonin receptors (MT1 and MT2) with 5-HT2C antagonist properties. The efficacy of 25 mg/day agomelatine in treating major depressive disorder (MDD) has been demonstrated in a number of placebo-controlled studies. Evidence of improvement in depressive symptoms was observed in a dose-ranging study in which 25 mg/day agomelatine was significantly better than placebo, whatever the rating scale used (Hamilton Rating Scale for Depression, Clinical Global Impression, and Montgomery-Asberg Depression Rating Scale). These results have been confirmed in two similarly designed placebo-controlled studies. Agomelatine also produces a significant improvement in anxiety compared to placebo, according to Hamilton Rating Scale for Anxiety scores. The efficacy of agomelatine has been studied in subpopulations with more severe depression, demonstrating its efficacy in these difficult-to-treat patients. In view of the available data on agomelatine, this antidepressant can be regarded as an innovative treatment for MDD patients, offering a new approach in the management of depressed patients.
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PMID:Clinical efficacy of agomelatine in depression: the evidence. 1643 36

Melatonin is a neurohormone that is believed to be involved in a wide range of physiological functions. In humans, appropriate clinical trials confirm the efficacy of melatonin or melatoninergic agonists for the MT1 and MT2 receptor subtypes in circadian rhythm sleep disorders only. Nevertheless, preclinical animal model studies relevant to human pathologies involving validated reference compounds lead to other therapeutic possibilities. Among these is a recently developed treatment concept for depression, which has been validated by the clinical efficacy of agomelatine, an agent having both MT1 and MT2 agonist and 5-HT2C antagonist activity. A third melatonin binding site has been purified and characterized as the enzyme quinone reductase 2 (QR2). The physiological role of this enzyme is not yet known. Recent results obtained by different groups suggest: (1) that inhibition of QR2 may lead to "protective" effects and (2) that over-expression of this enzyme may have deleterious effects. The inhibitory effect of melatonin on QR2 observed in vitro may explain the protective effects reported for melatonin in different animal models, such as cardiac or renal ischemia-effects that have been attributed to the controversial antioxidant properties of the hormone. The development of specific ligands for each of these melatonin binding sites is necessary to link physiological and/or therapeutic effects.
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PMID:Therapeutic potential of melatonin ligands. 1668 14

Melatonin is implicated in numerous physiological processes, including circadian rhythms, stress, and reproduction, many of which are mediated by the hypothalamus and pituitary. The physiological actions of melatonin are mainly mediated by melatonin receptors. We here describe the distribution of the melatonin receptor MT1 in the human hypothalamus and pituitary by immunocytochemistry. MT1 immunoreactivity showed a widespread pattern in the hypothalamus. In addition to the area of the suprachiasmatic nucleus (SCN), a number of novel sites, including the paraventricular nucleus (PVN), periventricular nucleus, supraoptic nucleus (SON), sexually dimorphic nucleus, the diagonal band of Broca, the nucleus basalis of Meynert, infundibular nucleus, ventromedial and dorsomedial nucleus, tuberomamillary nucleus, mamillary body, and paraventricular thalamic nucleus were observed to have neuronal MT1 receptor expression. No staining was observed in the nucleus tuberalis lateralis and bed nucleus of the stria terminalis. The MT1 receptor was colocalized with some vasopressin (AVP) neurons in the SCN, colocalized with some parvocellular and magnocellular AVP and oxytocine (OXT) neurons in the PVN and SON, and colocalized with some parvocellular corticotropin-releasing hormone (CRH) neurons in the PVN. In the pituitary, strong MT1 expression was observed in the pars tuberalis, while a weak staining was found in the posterior and anterior pituitary. These findings provide a neurobiological basis for the participation of melatonin in the regulation of various hypothalamic and pituitary functions. The colocalization of MT1 and CRH suggests that melatonin might directly modulate the hypothalamus-pituitary-adrenal axis in the PVN, which may have implications for stress conditions such as depression.
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PMID:Distribution of MT1 melatonin receptor immunoreactivity in the human hypothalamus and pituitary gland: colocalization of MT1 with vasopressin, oxytocin, and corticotropin-releasing hormone. 1707 39

Current antidepressants used in major depressive disorder (MDD) are still not efficacious enough for many patients due to high levels of treatment resistance and bothersome side-effects. Using a novel blinding method (interactive voice response system), this flexible-dosing study examined the effects of therapeutic doses of agomelatine, a new approach to depressive therapy offering potent melatonergic MT1/MT2 receptor agonism with 5-HT2C receptor antagonist properties, in patients with moderate-to-severe MDD. This 6-wk, double-blind, parallel-group study randomized 238 patients to 25 mg/d agomelatine (with dose adjustment at 2 wk to 50 mg/d in patients with insufficient improvement) or placebo. Depression severity was assessed using the Hamilton Depression Rating Scale (HAMD) and the Clinical Global Impression (CGI) scale. Agomelatine was significantly more efficacious than placebo, with an agomelatine-placebo difference of 3.44 (p<0.001) using the HAMD final total score. Compared with placebo, agomelatine also had a significant positive impact on CGI - Improvement (treatment difference=0.45) and CGI - Severity (treatment difference=0.50) (both p=0.006), response rate (54.3% vs. 35.5% with placebo, p<0.05) and time to first response (p=0.008). Similar results were seen in patients with the most severe MDD. Depressed mood and sleep items of the HAMD were also significantly improved with agomelatine, which was well tolerated with a safety profile similar to placebo at both doses. This study confirms that agomelatine is effective in treating major depression, including the most severely depressed patients, with a good safety and tolerability profile, therefore providing physicians with an effective pharmacological approach to antidepressant therapy.
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PMID:Efficacy of agomelatine, a MT1/MT2 receptor agonist with 5-HT2C antagonistic properties, in major depressive disorder. 1768 Oct 87

Depressive disorders are of the highest socioeconomic and health-economic importance, as they are the psychiatric disorders that most frequently cause psychosocial disability. Despite the progress that has been made, currently available pharmacotherapies for depression still have a limited antidepressant efficacy with a delayed onset of several weeks, and still cause side effects; these unmet needs represent important reasons to continue to search for novel treatment options. A disorganization of circadian rhythms has been suggested to play an important role in the pathophysiology of major depression, and complaints regarding disturbed sleep are frequent in depressed patients. As endogenous melatonin secretion underlies the regulation of circadian rhythms, compounds with activity at melatonergic receptors have been proposed as potential novel therapeutics. Agomelatine (S-20098), a compound with agonistic properties at MT1 and MT2 receptors and antagonistic properties at the 5-HT2C receptor, has been shown preclinically to exhibit robust antidepressant effects in several experimental paradigms. Clinical trials, including phase III studies, have now demonstrated the superior efficacy of agomelatine in comparison with placebo, and a similar efficacy in comparison with active comparators, for the treatment of major depression. Agomelatine was even effective in severely depressed patients. In all studies published so far, agomelatine was found to be safe and its overall tolerability profile was superior to that of selective serotonin reuptake inhibitors and selective serotonin and noradrenaline reuptake inhibitors.
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PMID:Evidence of agomelatine's antidepressant efficacy: the key points. 1791 62

Full remission of symptoms is the goal for the acute treatment of depression, because incomplete remission is associated with poor outcomes including higher risk of relapse and chronicity. The current definitions for remission (e.g. a score of </=7 on the Hamilton Depression Rating Scale), however, allow for the presence of residual symptoms of depression even if remission is attained. The focus now is on the quality of remission, that is, ensuring a minimum of such residual symptoms, because the consequences of low-quality remission also include impairment in psychosocial functioning. The most common residual symptoms are sleep disturbances, fatigue, and disinterest. Sleep-associated residual symptoms are particularly common, and are a major concern because most current treatments fail to adequately address sleep disturbances and may even aggravate them. Other side effects of current treatments, such as weight gain and sexual dysfunction, may also reduce the quality of remission. A novel approach to the treatment of depression with agomelatine, a melatonergic MT1 and MT2 receptor agonist and 5-HT2C receptor antagonist, may be an effective treatment that improves the quality of remission, as it combines good efficacy with positive effects on sleep, neutral effects on sexual function, and a favorable side effect profile.
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PMID:High-quality remission: potential benefits of the melatonergic approach for patients with major depressive disorder. 1791 63

Sleep disturbances are often associated with depression and mood disorders, and certain manipulations of the sleep-wake cycle are effective as therapeutic interventions in the treatment of depression. Dysregulated circadian rhythms are thereby considered as causal. Circadian rhythms in mammals are mainly regulated by a core biological clock, located in the hypothalamic suprachiasmatic nucleus; its pacemaker activity is regulated by light and nonphotic modulatory pathways, and the driving mechanisms are serotonergic input from the raphe and the hormone melatonin originating from the pineal gland. In line, the concentration of brain serotonin and the levels of 5-HT2C receptors are high and highly expressed there. Agomelatine, a novel antidepressant drug with proven clinical efficacy in major depressive disorder, has a unique mechanism of action; it acts as an agonist at melatonergic MT1 and MT2 receptors and as an antagonist at 5-HT2C receptors. In animals, agomelatine was shown to increase noradrenaline and dopamine (but not serotonin) in the frontal cortex, to resynchronize the sleep-wake cycle in models with disrupted circadian rhythms, and to exhibit a clear antidepressant effect in various animal models of depression. On the basis of the functional relationship between melatonergic and serotonergic signaling in the suprachiasmatic nucleus, and given agomelatine's affinity at melatonergic and 5-HT2C receptors, the therapeutic efficacy of the drug may be due to the potential synergy of its action at these different receptors.
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PMID:The interaction between the internal clock and antidepressant efficacy. 1791 64

Melatonin (CAS 73-31-4) has both hypnotic and sleep/wake rhythm regulating properties. These sleep promoting actions, which are already demonstrable in healthy humans, have been found useful in subjects suffering from circadian rhythm sleep disorders (CRSD) like delayed sleep phase syndrome (DSPS), jet lag and shift-work sleep disorder. Low nocturnal melatonin production and secretion have been documented in elderly insomniacs, and exogenous melatonin has been shown to be beneficial in treating sleep disturbances of these patients. In comparison to a number of sleep-promoting compounds that are usually prescribed, such as benzodiazepines and z-drugs (zolpidem and zopiclon belonging to the latter ones), melatonin has several advantages of clinical value: it does not cause hangover nor withdrawal effects and is devoid of any addictive potential. However, recent meta-analyses revealed that melatonin is not sufficiently effective in treating most primary sleep disorders. Some of the reasons for a limited efficacy of this natural hormone are related to its extremely short half-life in the circulation, and to the fact that sleep maintenance is also regulated by mechanisms downstream of primary melatonergic actions. Hence, there is an urgent need for the development of melatonin receptor agonists with a longer half-life, which could be suitable for a successful treatment of insomnia. Such requirements are fulfilled by ramelteon (CAS 196597-26-9), which possesses a high affinity for the melatonin receptors MT1 and MT2 present in the circadian pacemaker, the suprachiasmatic nucleus (SCN). Ramelteon also has a substantially longer half-life than melatonin. This new drug has been successfully used in treating elderly insomniacs without any adverse effects reported, and is promising for treating patients with primary insomnia and also those suffering from CRSD. Since sleep disturbances constitute the most prevalent symptoms of various forms of depression, the need for the development of an ideal antidepressant was felt, which would both improve sleep and mitigate depressive symptoms. Since most of the currently used antidepressants, including the selective serotonin re-uptake inhibitors worsen the sleep disturbances of depressive patients, another novel melatonergic drug, agomelatine (CAS 138112-76-2), holds some promise because of its particular combination of actions: it has a high affinity for MT1 and MT2 receptors in the SCN, but it acts additionally as a 5-HT(2C) antagonist [5-hydroxytryptamine (serotonin) receptor 2C antagonist]. The latter property, which is decisive for the antidepressive action, would not favor but potentially antagonize sleep, but this is overcome during night by the melatonergic, sleep-promoting effect. This drug has been found beneficial in treating patients with major depressive and seasonal affective disorders. Unlike the other antidepressants, agomelatine improves both sleep and clinical symptoms of depressive illness and does not have any of the side effects on sleep seen with other compounds in use. This property seems to be of particular value because of the aggravating effects of disturbed sleep in the development of depressive symptoms. Based on these facts, agomelatine seems to be a drug of superior efficacy with a promising future in the treatment of depressive disorders. However, long-term safety studies are required for both ramelteon and agomelatine, with a consideration of the pharmacology of their metabolites, their effects on redox metabolism, and of eventual undesired melatonergic effects, e. g., on reproductive functions. According to current data, both compounds seem to be safe during short-term treatment
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PMID:Melatonergic drugs in clinical practice. 1836 44

OBJECTIVES: In the mammalian brain, G protein-coupled MT(1) and MT(2) melatonin receptors may be involved in Alzheimer's pathology, long-term potentiation, depression, and in the behavioral effects of psychoactive drugs. These drugs; e.g. antidepressants and drugs of abuse, are typically used over long periods of time and may alter neuroplasticity and gene expression. We hypothesized that such antidepressant- and cocaine-altered expression of melatonin receptor mRNA may occur in the hippocampus and striatum. METHODOLOGY: Male C3H/HeJ mice were treated with the antidepressants fluoxetine, desipramine, and clomipramine, with the psychostimulant cocaine, and with a vehicle either a single time or once a day for 14 days. Brain samples were collected 24 h after the last injection and the content of MT(1) and MT(2) mRNA was assayed. RESULTS: A single drug injection did not alter the MT(1) and MT(2) mRNA content. In the hippocampus, protracted treatment with antidepressants increased the amount of MT(1) mRNA (with the exception of fluoxetine) but decreased MT(2) mRNA content; cocaine did not produce any alterations. In the striatum, antidepressants produced the opposite effect on MT(1) mRNA content; they decreased it. They did not significantly alter striatal MT(2) mRNA (we observed a nonsignificant trend to a decrease). Cocaine also decreased striatal MT(1) mRNA content without affecting MT(2) mRNA. CONCLUSION: These results suggest that drug- and region-specific alterations of MT(1)/MT(2) mRNA produced by protracted antidepressants and cocaine treatment may alter MT1/MT2 expression and contribute to long-term neuroplastic effects of these drugs.
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PMID:Drug- and region-specific effects of protracted antidepressant and cocaine treatment on the content of melatonin MT(1) and MT(2) receptor mRNA in the mouse brain. 1838 85


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