Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01185 (vasopressin)
 23,126 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Bulimia nervosa is an eating disorder characterised by recurrent episodes of binge eating and associated efforts to purge the ingested calories through self-induced vomiting, laxative or diuretic abuse, fasting or intensive exercise. The aetiopathogenesis and pathophysiology of the disorder are currently unclear. Biological bases have been proposed repeatedly, based on several lines of evidence: hunger, satiety and food choice are regulated by neurotransmitters and neuropeptides, and impairment of eating habits may be related to alterations in the secretion of these chemicals; genetic studies suggest that these neurotransmitter systems are dysfunctional in individuals with bulimia nervosa; and the frequent comorbidity of bulimia nervosa with major depressive and obsessive-compulsive disorders, conditions in which multiple alterations of brain biochemical functions have been demonstrated. Data in the literature suggest that levels of noradrenaline (norepinephrine) and serotonin (5-hydroxytryptamine; 5-HT) are lower in individuals with bulimia nervosa than in healthy controls. Levels of dopamine are similar to, or lower than, those in controls. After remission of the disorder, noradrenergic function returns to that seen in controls, whereas dopaminergic and serotonergic function rebound to levels higher than in controls. Among the neuropeptides, alterations in the levels of neuropeptide Y, peptide YY, beta-endorphin, corticotrophin-releasing hormone, somatostatin, cholecystokinin and vasopressin have been found in the symptomatic phase of bulimia nervosa, with a return to levels seen in controls after remission. Pharmacological treatment of bulimia nervosa that is directed at correction of the neurochemical alterations observed is difficult because of the complexity of the impairments. However, such treatment is necessary and should be continued long after symptomatic remission to ensure reinstitution of cerebral biochemical homeostasis.
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PMID:Aetiopathogenesis and pathophysiology of bulimia nervosa: biological bases and implications for treatment. 1146 Aug 90

Serotonin 5-HT(1A)receptor agonist 8-OH DPAT suppressed drinking behavior in Brattleboro and Wistar rats. 5-HT(1B)agonist CGS-12066A and 5-HT(2A)antagonist ketanserin did not affect drinking behavior in Brattleboro rats; 5-HT(3)antagonist ondansetron suppressed water consumption and 5-HT(1A)agonist stimulated salt appetite in Brattleboro, but not in Wistar rats. Presumably, vasopressin regulates thirst and salt appetite by modulating sensitivity/density of various types of 5-HT receptors.
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PMID:Role of various types of serotonin receptors in regulation of drinking behavior and salt appetite in vasopressin-deficient brattleboro rats. 1155 43

Evidence is provided to support the view that central 5-HT(1A) and 5-HT(2) receptors are the major receptor subtypes important in cardiovascular regulation. Data are also provided to implicate 5-HT(1B/1D/1F) receptors in central cardiovascular regulation. Activation of 5-HT(2) receptors generally causes sympathoexcitation and a rise in blood pressure and this is mainly mediated by 5-HT(2A) receptors. However, presympathetic vasomotor neurones located in the hindbrain (RVLM), controlling sympathetic outflow to the heart, are not activated in the same way as other presympathetic vasomotor neurones, although activation of 5-HT(2) receptors located in the midbrain can activate sympathetic outflow to the heart. Furthermore, at least in the rat, these midbrain 5-HT(2A) receptors are also responsible for the release of vasopressin by activation of a central angiotensinergic pathway. The ability of vasopressin directly and/or indirectly to modify renal sympathetic outflow involves the activation of central 5-HT(2B) receptors, which in turn, when activated via the i.c.v. route, can cause selective renal sympathoexcitation. Evidence is also provided which indicates that the reflex control of parasympathetic outflow to the heart and to other organs involves central 5-HT(1A) receptors located in the vicinity of these preganglionic vagal neurones. Finally, 5-HT(3) receptors are implicated in the afferent regulation of central sympathetic and parasympathetic tone.
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PMID:Central cardiovascular regulation and 5-hydroxytryptamine receptors. 1175 Jul 88

Syncope is defined as a temporary interruption of cerebral perfusion with a sudden and transient loss of consciousness and spontaneous recovery. Approximately one third of the population experiences syncope at least once during a lifetime. Presyncopal signs and symptoms, including weakness, headache, blurred vision, diaphoresis, nausea, and vomiting are sometimes present for seconds or minutes prior to loss of consciousness. After syncope, the patients may present with persisting drowsiness, headache, dizziness, nausea, but not usually confusion. Causes of syncope have been categorized as cardiovascular, non-cardiovascular, and unexplained. Cardiovascular causes can be subdivided into structural heart disease, coronary heart disease, and arrhythmia. Non-cardiovascular causes include neurological, metabolic, psychiatric and other disorders.Orthostatic hypotension - one of the most frequent causes of syncope - has manifold etiologies comprising various neurological and internal diseases. Orthostatic hypotension usually can be attributed to an impairment of peripheral vasoconstriction or to a reduction of the intravascular volume. Signs and symptoms, including the above prodromi are often present just after rising from a supine or sitting position. Frequently, blood pressure decreases significantly without an increase in heart rate. Autonomic cardiovascular modulation is often reduced. Many of the patients with "unexplained" syncope experience neurally mediated (i. e. neurocardiogenic or vasovagal) syncope. In these patients, cardiovascular control may be stable for an extended period of time during orthostatic stress, then there is a sudden decrease in blood pressure and heart rate. Neurocardiogenic or neurally mediated syncope can be associated with painful or emotionally stressful situations such as anxiety or fear, with prolonged standing or specific trigger situations such as micturition, defecation, coughing or sneezing, visceral or carotid sinus stimulation, or with trigeminal or glossopharyngeal neuralgia. So far, the mechanisms of neurocardiogenic syncope are not completely understood. The passive 60 degrees to 70 degrees head-up tilt test is useful for the diagnosis of orthostatic and neurally mediated syncope. The sensitivity of the test can be improved by additional pharmacological provocation, e. g. by isoproterenol, or by increased orthostatic stress using lower body negative pressure stimulation. For the treatment of syncope one should first consider non-pharmacological options. Patients with orthostatic hypotension should avoid rapid changes of the body position from supine to standing, as well as high room temperature or other situations inducing peripheral vasodilatation. An increased intake of sodium and fluids, mild physical exercise or so-called postural counter-maneuvers can improve orthostatic tolerance. Among the drugs recommended for pharmacologic treatment are mineralocorticoids (e. g. fludrocortisone), vasoconstrictor agents (e. g. ephedrine, midodrine), adenosine receptor blockers (theophylline) and beta2-blockers (propanolol), anticholinergic agents, e. g. scopolamine or disopyramide, and negative cardiac inotropes, e. g. beta1-adrenergic blockers or disopyramide. Serotonin reuptake inhibitors (e. g. fluoxetine, sertraline), alpha2-adrenergic agonists (clonidine), central nervous system stimulants such as methylphenidate or phentermine are thought to be beneficial in specific cases. Cardiac pacemakers often seem to be recommended without adequate indication. The antidiuretic, V2-receptor specific, vasopressin analogue desmopressin increases the intravascular volume. Erythropoietin improves anemia and red blood cell decrease and augments blood pressure and cerebral oxygenation. In postprandial hypotension, octreotide, a somatostatin analogue, prostaglandin inhibitors such as indomethacin or ibuprofen, as well as metoclopramide or two cups of coffee per day might be beneficial.
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PMID:[Syncope - a systematic overview of classification, pathogenesis, diagnosis and management]. 1182 26

The present study investigated whether serotonin (5-HT) agonists could inhibit the ability of arginine-vasopressin (AVP) to induce a form of scent marking called flank marking by their actions in the medial preoptic-anterior hypothalamus (MPOA-AH). DOI, a 5-HT2A,2B,2C receptor agonist, did not inhibit AVP-induced flank marking, but mCPP a 5-HT2A antagonist and 5-HT2B,2C agonist inhibited AVP-induced flank marking. In addition, the finding that 8-OH-DPAT, CGS-12066A and SC53116 also inhibited AVP-induced flank marking suggests that 5-HT could also inhibit flank marking by acting through 5-HT1A, 5-HT7, 5-HT1B and/or 5-HT4 receptor subtypes. These data support the hypothesis that 5-HT acts within the MPOA-AH to inhibit the ability of AVP to induce flank marking.
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PMID:Serotonin and vasopressin interact in the hypothalamus to control communicative behavior. 1200 93

The effects of water deprivation and hydration on plasma corticosterone concentration and the activity of tryptophan hydroxylase (TPH), the rate-limiting enzyme in serotonin (5-HT) biosynthesis, in the hypothalamus of vasopressin- (AVP-) deficient homozygous Brattleboro and normal Wistar rats were studied. In the Wistar rats, water deprivation caused an increase in the TPH activity in the anterior and middle (infundibular) parts of the hypothalamus, while hydration did not affect the activity of the enzyme in the anterior hypothalamus but produced an increase in its middle part. In contrast, in the Brattleboro rats, water deprivation had no effect on TPH activity in the anterior and middle parts of the hypothalamus but hydration produced a decrease in TPH activity in the anterior hypothalamus. After 48 h of water deprivation, the plasma corticosterone concentration significantly increased in water-deprived and decreased in hydrated Wistar rats. Under water deprivation, the rise in corticosterone concentration in the homozygous Brattleboro rats was significantly greater than that in the Wistar rats. The data provide evidence that the CRH-like activity of AVP is not necessary for activation of the hypothalamic-pituitary-adrenal system induced by water deprivation. The observations show that AVP is involved in the activation of TPH induced by water deprivation. This suggests that AVP modulates the metabolism of 5-HT and the response of the 5-HT-ergic system to water deprivation.
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PMID:Hypothalamic tryptophan hydroxylase and the hypothalamic-pituitary-adrenocortical response to water deprivation and hydration in vasopressin-deficient and normal rats. 1211 Dec 45

Serotonin (5-HT) and glutamate are concerned with the input pathways to the suprachiasmatic nucleus (SCN), a center of biological rhythms in mammals. Arg-vasopressin (AVP) is one of the output paths from the SCN to other brain areas. Functional relations of 5-HT on glutamate release, which stimulates AVP release, were therefore analyzed in an SCN slice culture using a glutamate biosensor. Spontaneous release of glutamate from the SCN culture was higher during the light period than the dark period. The 5-HT-stimulated increase in glutamate release was also larger at 0900 h than at 2000 h. In addition, glutamate, but not 5-HT, increased the AVP release. These findings suggest the possibility that the 5-HT has no direct facilitatory functions in AVP release via liberation of glutamate from the SCN.
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PMID:Serotonin-stimulated glutamate release from an SCN explant culture was higher during light period. 1218 17

In dexamethasone-suppressed healthy volunteers, the serotonin4 (5-HT4) receptor agonist cisapride and lysine vasopressin [LVP, an analog of arginine vasopressin (AVP)] have no influence on plasma cortisol levels (PCL). In contrast, cisapride and AVP have been shown to stimulate cortisol secretion in patients with adrenal tumor or bilateral adrenal hyperplasia and Cushing's syndrome. In this report, we describe a case of adrenocortical adenoma causing subclinical Cushing's syndrome. Cisapride and terlipressin, a precursor of LVP, both induced an increase in PCL reaching +88% and +100%, respectively, without any significant variation of plasma ACTH levels. In vitro experiments were conducted to investigate the effects of 5-HT and AVP on cortisol production from cultured tumor cells and normal adrenocortical cells. 5-HT and AVP both induced a dose-dependent increase in cortisol production from cultured tumor cells. Comparison of the data obtained with tumor and normal cells, respectively, showed that 5-HT was more efficient to stimulate steroidogenesis in adenomatous than normal cells. Concurrently, the efficacy and potency of AVP were both higher in tumor than normal cells. Collectively, these results show that the abnormal in vivo responses of the adrenocortical adenoma to cisapride and LVP could be ascribed to an increased sensitivity of the tumor tissue to 5-HT and AVP. The data also suggest that the adrenocortical tumor overexpressed eutopic 5-HT4 and V1 receptors.
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PMID:Effects of serotonin and vasopressin on cortisol production from an adrenocortical tumor causing subclinical Cushing's syndrome. 1253 Jun 99

Serotonin (5-HT), 5-HT agonists, the 5-HT precursor 5-hydroxytryptophan, 5-HT-releasers and -reuptake inhibitors stimulate the release of vasopressin and oxytocin. We investigated the involvement of 5-HT receptors in the serotonergic regulation of vasopressin and oxytocin secretion. Vasopressin and oxytocin secretion was stimulated by 5-HT, the 5-HT(1A+1B+5A+7) agonist 5-carboxamidotryptamine (5-CT), the 5-HT(2A+2C) agonist DOI, the 5-HT(2C+2A) agonist mCPP, the 5-HT(2C) agonist MK-212, the 5-HT(3) agonist SR 57277 and the 5-HT(4) agonist RS 67506. The 5-HT(1A) agonist 8-OH-DPAT, which had no effect on vasopressin secretion, stimulated oxytocin secretion. The 5-HT-induced release of vasopressin and oxytocin was inhibited by central infusion of the 5-HT antagonists WAY 100635 (5-HT(1A)), LY 53857 (5-HT(2A+2C)), ICS 205-930 (5-HT(3+4)) and RS 23597 (5-HT(4)). The 5-HT2+6+7 antagonist metergoline in combination with the 5-HT1A+2+7 antagonist methysergide inhibited the stimulatory effect of 5-CT on both hormones, whereas the 5-HT1A+1B antagonist cyanopindolol only inhibited the oxytocin response. The 5-HT(2A) antagonist 4-(4-flourobenzoyl)-1-(4-phenylbutyl)-piperidine oxalate had no effect on DOI-induced hormone response. The 5-HT(2C) antagonist Y 25130 partly inhibited the stimulating effect of MK-212. ICS 205-930 and RS 23597 inhibited vasopressin and oxytocin secretion induced by RS 67506. WAY 100635 inhibited 8-OH-DPAT-induced oxytocin secretion. We conclude that 5-HT-induced vasopressin secretion primarily is mediated via 5-HT(2C), 5-HT(4) and 5-HT(7) receptors, whereas 5-HT(2A), 5-HT(3) and 5-HT(5A) receptors seem to be of minor importance. 5-HT-induced oxytocin secretion involves 5-HT(1A), 5-HT(2C) and 5-HT(4) receptors; in addition an involvement of 5-HT(1B), 5-HT(5A) and 5-HT(7) receptors seems likely, whereas 5-HT(2A) and 5-HT(3) receptors seem to be less important.
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PMID:Serotonin receptors involved in vasopressin and oxytocin secretion. 1258 12

Exposure to hostile conditions initiates responses organized to enhance the probability of survival. These coordinated responses, known as stress responses, are composed of alterations in behavior, autonomic function and the secretion of multiple hormones. The activation of the renin-angiotensin system and the hypothalamic-pituitary-adrenocortical axis plays a pivotal role in the stress response. Neuroendocrine components activated by stressors include the increased secretion of epinephrine and norepinephrine from the sympathetic nervous system and adrenal medulla, the release of corticotropin-releasing factor (CRF) and vasopressin from parvicellular neurons into the portal circulation, and seconds later, the secretion of pituitary adrenocorticotropin (ACTH), leading to secretion of glucocorticoids by the adrenal gland. Corticotropin-releasing factor coordinates the endocrine, autonomic, behavioral and immune responses to stress and also acts as a neurotransmitter or neuromodulator in the amygdala, dorsal raphe nucleus, hippocampus and locus coeruleus, to integrate brain multi-system responses to stress. This review discussed the role of classical mediators of the stress response, such as corticotropin-releasing factor, vasopressin, serotonin (5-hydroxytryptamine or 5-HT) and catecholamines. Also discussed are the roles of other neuropeptides/neuromodulators involved in the stress response that have previously received little attention, such as substance P, vasoactive intestinal polypeptide, neuropeptide Y and cholecystokinin. Anxiolytic drugs of the benzodiazepine class and other drugs that affect catecholamine, GABA(A), histamine and serotonin receptors have been used to attenuate the neuroendocrine response to stressors. The neuroendocrine information for these drugs is still incomplete; however, they are a new class of potential antidepressant and anxiolytic drugs that offer new therapeutic approaches to treating anxiety disorders. The studies described in this review suggest that multiple brain mechanisms are responsible for the regulation of each hormone and that not all hormones are regulated by the same neural circuits. In particular, the renin-angiotensin system seems to be regulated by different brain mechanisms than the hypothalamic-pituitary-adrenal system. This could be an important survival mechanism to ensure that dysfunction of one neurotransmitter system will not endanger the appropriate secretion of hormones during exposure to adverse conditions. The measurement of several hormones to examine the mechanisms underlying the stress response and the effects of drugs and lesions on these responses can provide insight into the nature and location of brain circuits and neurotransmitter receptors involved in anxiety and stress.
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PMID:Neuroendocrine pharmacology of stress. 1260 Jul 14


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