Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P01189 (beta-endorphin)
 21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A stimulatory role for endogenous dopamine (DA) in the regulation of hypothalamo-pituitary-adrenal activity has previously been demonstrated. In the present study, the roles of D1 and D2 subtypes of DA receptors in the regulation of activity of the hypothalamo-pituitary-adrenal axis were investigated. The intraperitoneal administration of either the D1 agonist, SKF 383393 (1-phenyl-2,3,4,5 tetrahydro-(iH)-benzazepine-7,8diol HCl, 5-20 mg/kg) or the D2 agonist quinpirole (0.05-1 mg/kg) dose-dependently elevated both adrenocorticotropic hormone (ACTH) and corticosterone (CS) in serum. Similarly, administration of either SKF 38393 or quinpirole (1-100 micrograms) into the third ventricle dose-dependently elevated ACTH in serum. The response of ACTH to intraperitoneal SKF 38393 was blocked by pretreatment with the D1 antagonist SCH 23390 (1-chloro-8-hydroxy-3-methyl-1-phenyl-2,3,4,5 tetrahydro-1H-3-benzazepine, 0.25 mg/kg, i.p.) but not by the D2 antagonist sulpiride (50 mg/kg, i.p.). The response of ACTH to intraperitoneal injection of quinpirole was blocked by pretreatment with sulpiride and attenuated slightly by pretreatment with SCH 23390. Further, the co-administration of sub-maximum doses of SKF 38393 and quinpirole caused additive increases in ACTH in serum. These results suggest that both D1 and D2 subtypes of DA receptors contribute to the dopaminergic regulation of function of the hypothalamo-pituitary-adrenal axis and support a role for DA neurons in the hypothalamus in this response. Further, these findings suggest that the D1 and D2 receptors, mediating the response of the hypothalamopituitary-adrenal axis are not tightly coupled.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:D1 and D2 dopamine receptors stimulate hypothalamo-pituitary-adrenal activity in rats. 132 19

Release of alpha-melanocyte-stimulating hormone (alpha-MSH) from slices of rat hypothalamus superfused with artificial cerebro-spinal fluid (ACSF) was quantified by radioimmunoassay. Addition of 10(-6) M quinpirole, a D2-dopamine receptor agonist, to the superfusion medium caused a significant (P less than 0.001) reduction in the amount of alpha-MSH released upon depolarisation with 50 mM potassium from 319 +/- 37% to 110 +/- 16% of basal release in normal ACSF (mean +/- S.E.M.). Basal peptide release in the presence of quinpirole was unaffected. Sulpiride, a D2-dopamine receptor antagonist, at a concentration of 10(-6) M, induced a significant (P less than 0.05) increase of both basal and potassium-stimulated alpha-MSH release to 203 +/- 21% and 447 +/- 88% of basal release in normal ACSF respectively. The latter increases were abolished when sulpiride and quinpirole were added in combination. SK&F 38393-A and SCH 23390, a D1-dopamine agonist and antagonist respectively, had no significant effect on either basal or potassium-stimulated alpha-MSH release. It is proposed that endogenous dopamine exerts an inhibitory control on alpha-MSH release from the rat hypothalamus via D2-dopamine receptors and that in isolated hypothalamic slices there is a tonic inhibition of peptide release due to the activity of this system.
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PMID:D2- but not D1-dopamine receptors are involved in the inhibitory control of alpha-melanocyte-stimulating hormone release from the rat hypothalamus. 254 19

Acute or chronic cocaine administration exerts multiple behavioral and physiologic effects including stimulation of the hypothalamic-pituitary-adrenal (HPA) axis. Pharmacologically, cocaine shares major properties with at least 2 classes of pharmaceuticals. It is a local anesthetic and also a potent psychomotor stimulant. The psychomotor stimulant properties of cocaine are thought to be related to its ability to modify the metabolism and the activity of many neurotransmitter systems, such as acetylcholine (ACh), serotonin (5-HT), norepinephrine (NE), and dopamine (DA). We and others have shown that all these neurotransmitters are potent stimulants of hypothalamic corticotropin-releasing hormone (CRH) secretion. The present study was undertaken to examine whether cocaine stimulates hypothalamic CRH secretion and whether or not such an effect is mediated by any of the above neurotransmitters. To accomplish this task, we employed a rat hypothalamic organ culture system, in which CRH secretion form single explanted hypothalami was evaluated by specific radioimmunoassay (iCRH). Cocaine stimulated iCRH secretion in a dose-dependent fashion with peak of activity at 10(-8) M. Isolated or simultaneous pharmacologic blockade of cholinergic (atropine plus hexamethonium), serotonergic (ritanserin), alpha-adrenergic (phentolamine) and/or dopaminergic (compound SCH 23390) receptor subtypes failed to inhibit cocaine-induced iCRH secretion. On the other hand, cocaine-induced iCRH secretion was inhibited by GABA, a potent inhibitor of CRH secretion, dexamethasone, verapamil, a calcium channel blocker, tetrodotoxin, a sodium channel blocker, and carbamazepine, an antiepileptic and antidepressive agent.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Cocaine stimulates rat hypothalamic corticotropin-releasing hormone secretion in vitro. 261 79

REM sleep deprivation induced by means of the platform technique (72 h) was followed by a period of latency to sleep characterized by a marked excitement in rats. The administration of naloxone at the end of the REM deprivation period reduced this latency to sleep while morphine, beta-endorphin and DADLE prolonged it. The dopamine D1 receptor antagonist SCH 23390 was extremely potent (0.003 mg/kg) to reduce the latency to sleep and the excitement while the D1 agonist SKF 38393 induced an opposite effect. The dopamine D2 receptor antagonist L-sulpiride was inactive up to a dose of 25 mg/kg. These data suggest that hyperactivity of the opioid and dopamine systems (specifically mediated through D1 receptors) is involved in such behaviour.
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PMID:Stress-induced insomnia: opioid-dopamine interactions. 289 86

To further our understanding of the functional role of catecholaminergic systems in regulating hypothalamic corticotropin-releasing hormone (CRH) secretion, we assessed the direct effects of a multiplicity of catecholamine agonists and antagonists on hypothalamic CRH secretion. To accomplish this, we used an in vitro rat hypothalamic organ culture system in which CRH secretion from single explants was evaluated by a specific RIA (IR-rCRH). Norepinephrine (NE) stimulated IR-rCRH secretion dose dependently, with peak effects in the nanomolar range. The effect of NE was antagonized by the mixed alpha antagonist phentolamine, the alpha 1 antagonist prazosin, and the alpha 2 antagonist yohimbine, but not by the beta blocker, L-propanolol. Compatible with these data were the findings that the alpha 1 agonist phenylephrine and the alpha 2 agonist clonidine both stimulated IR-rCRH secretion in a dose-dependent fashion. On the other hand, whereas the beta agonist, isoproterenol, caused a weak, non-dose-dependent increase in IR-rCRH secretion, this effect could not be antagonized by L-propanolol. Despite pretreatment with serotonin and acetylcholine antagonists, the effect of NE upon IR-rCRH secretion was undiminished, suggesting that NE-induced CRH secretion is not mediated by either neurotransmitter. On the other hand, pretreatment with gamma-aminobutyric acid (GABA) attenuated NE-induced IR-rCRH secretion. Whereas epinephrine (E) stimulated IR-rCRH secretion, this occurred only at higher concentrations, and was antagonized by phentolamine, but not by L-propanolol. Dopamine (DA) had a weak stimulatory effect that could be antagonized by the DA1 receptor antagonist, SCH 23390, but not by phentolamine. We conclude that NE and E stimulate hypothalamic IR-rCRH secretion via alpha 1 and alpha 2 receptors. The effect of NE upon IR-rCRH secretion is not apparently mediated by serotonergic or cholinergic interneurons, but is modulated by the inhibitory neurotransmitter, GABA. These data support the idea that the central catecholaminergic systems are excitatory rather than inhibitory upon CRH secretion when acting directly at the hypothalamic level.
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PMID:Catecholamine effects upon rat hypothalamic corticotropin-releasing hormone secretion in vitro. 290 33

The exposure of rat brain slices containing caudate putamen and accumbens nuclei to alpha-MSH or dopamine (DA) results in an increase in cyclic AMP (cAMP) levels. When tissues are compared with those containing both alpha-MSH and DA, a reduction in the cyclic nucleotide is observable. This study was carried out to determine whether variations in tissular cAMP levels induced by alpha-MSH might be explained by an interaction between the peptide and some dopaminergic receptors. Therefore, we measured cAMP in tissues and medium in response to alpha-MSH in the presence of haloperidol, the selective D1 (SCH 23390) or D2 (sulpiride) antagonists, or the selective D1 (SKF 38393) or D2 (bromocriptine) agonists. Haloperidol by itself induced no changes either in the cAMP content or in the cAMP efflux to the medium. When slices were exposed to alpha-MSH and haloperidol, the latter blocked the alpha-MSH effect of inducing an increase in the content of cAMP. None of the specific antagonists (at the administered doses) induced changes in the content of cAMP when compared with the control group. The presence of SCH 23390 in the incubation medium together with alpha-MSH yielded a reduction in cAMP levels compared with those incubated with alpha-MSH. A slight stimulatory effect on cAMP formation was observed when the dopaminergic agonists (SKF 38393 10 microM) were used. We conclude that alpha-MSH interacts with the D1 dopamine receptor, changing the cAMP levels in striatum and accumbens nuclei.
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PMID:alpha-MSH changes cyclic AMP levels in rat brain slices by an interaction with the D1 dopamine receptor. 771 65

In the present study, we determined the effects of dopamine receptor agonists and antagonists on basal and ethanol-modulated beta-endorphin (beta-EP) secretion from hypothalamic neurons in primary cultures. Treatment with various concentrations of dopamine D1 agonist SKF 38393 and D1 antagonist SCH 23390 did not affect basal IR-beta-EP release. However, dopamine D2 receptor agonist LY 141865 reduced basal immunoreactive (IR)-beta-EP release in a concentration dependent manner. D2 receptor antagonist, sulpiride, on the other hand, stimulated basal IR-beta-EP release and blocked LY 141865-induced inhibition of IR-beta-EP release in a concentration dependent manner. When the actions of these DA receptor agents on ethanol-modulated IR-beta-EP release were studied, both D1 and D2 receptor agents failed to affect ethanol-modulated IR-beta-EP release. These data suggest that the endogenous secretion of beta-EP from hypothalamic neurons is under the influence of an inhibitory dopaminergic system involving the D2 receptor. Furthermore, ethanol's effects on beta-EP secretion are not mediated by dopamine.
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PMID:Effects of dopamine D1 and D2 receptor agonists and antagonists on basal and ethanol-modulated beta-endorphin secretion from hypothalamic neurons in primary cultures. 874 17

The model of sleep deprivation in rats by the platform method has been extensively studied in our laboratory as a possible animal model of mania. At the end of the period of sleep deprivation, the rat does not fall asleep as soon as it is returned to its home cage, but shows a period of wakefulness of about 30 min, during which the animal presents a cohort of symptoms that appear to mimic those present in idiopathic mania. In particular, during this period the animal displays insomnia, a high degree of hyperactivity, irritability, aggressiveness, hypersexuality and stereotypy. Haloperidol (0.2 mg/kg) was effective in reducing latency to sleep, while L-sulpiride was much weaker (< 50 mg/kg). The dopamine D1 receptor antagonist SCH 23390 exhibited an extremely high potency and efficacy in reducing sleep latency, a significant effect being observed with 3 micrograms/kg. The administration of the specific D1 receptor agonist SKF 38393 markedly prolonged the period of insomnia with the correlated behavioral syndrome. When lithium was added to the diet and consumed during the sleep deprivation period in adequate amounts to produce serum lithium levels of 0.7-1.0 mEq/l, sleep latency and locomotor activity were significantly reduced. The administration of naloxone (1-10 mg/kg) reduced the latency to sleep in a dose-related manner. By contrast, morphine (1 and 5 mg/kg, i.p.), beta-endorphin and [D-Ala2,D-Leu5]enkephalin (i.c.v., 2 and 1 micrograms, respectively) markedly prolonged the insomnia. The model not only represents a confirmation in the rat that sleep loss often precedes and may trigger a manic episode in man, but suggests that an opioid-dopamine interaction may play a pathogenetic role in mania.
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PMID:Sleep deprivation in the rat: an animal model of mania. 877 65

The present study examined the effects of intraperitoneal administration of selective D1 (SKF 38393) and D2 (quinelorane) dopaminergic receptor agonists on Fos-like immunoreactivity (Fos-LI) and levels of corticotropin-releasing hormone (CRH) mRNA in the paraventricular nucleus of the hypothalamus (PVN) and in the central nucleus of the amygdala (cAMY). Ninety minutes after administration of the D1 agonist SKF 38393, Fos-LI was increased in both the PVN and cAMY. Administration of SCH 39166, a selective D1 antagonist, blocked and attenuated the SKF 38393-induced increase in Fos-LI in the PVN and cAMY, respectively. Similarly, 90 minutes after intraperitoneal injection of the D2 agonist quinelorane, Fos-LI was increased in both PVN and cAMY. Administration of the selective D2 antagonist raclopride prevented the ability of quinelorane to increase Fos-LI in the PVN and cAMY. Both SKF 38393 and quinelorane stimulated the expression of CRH and mRNA in the PVN, but failed to alter its expression in the cAMY. Taken together, these results indicate that stimulation of either D1 and D2 dopaminergic receptors activates CRH neurons in the PVN. Stimulation of either D1 or D2 receptors activates neurons in the cAMY, but these changes do not appear to be occurring in CRH neurons.
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PMID:Dopamine receptor-mediated regulation of corticotropin-releasing hormone neurons in the hypothalamic paraventricular nucleus. 894 28

Opioid peptides and their receptors are present in the placenta of many species. Dopamine plays an important role in the regulation of opioid release in the nervous system and it may play a similar role in placenta since dopamine receptors are also present in this tissue. The aim of the present work was to examine the effect of dopamine on the basal release of rat placental opioids. The effect of several dopamine receptor agonists and antagonists was tested on the release of immunoreactive beta-endorphin and immunoreactive dynorphin from perfused rat placenta fragments. We found that dopamine and apomorphine stimulated the secretion of immunoreactive beta-endorphin in a dose-dependent manner. The selective D1 dopamine receptor agonist (+/-)-1-phenyl-2,3,4,5-tetrahydro-(1H)-3-benzazepine-7,8-diol hydrochloride or SKF-38393 reproduced the effect of dopamine while the selective D1 dopamine receptor antagonist R(+)-7-chloro-8-hydroxy-3-methyl-1-phenyl 1,2,3,4,5-tetrahydro-1 H-benzazepine hydrochloride or SCH-23390, prevented the dopamine- and SKF-38393-induced increase of immunoreactive beta-endorphin secretion. The selective and potent D2 dopamine receptor agonist (+/-)-2-(N-phenylethyl-N-propyl) amino-5-hydroxytetralin hydrochloride or PPHT had no effect on immunoreactive beta-endorphin. Finally, none of the agonists tested had any effect on the in vitro secretion of placental immunoreactive dynorphin. Our results suggest that dopamine affects the basal release of placental opioids in an opioid and dopamine receptor-specific manner, its effect being different from the effect it exerts on beta-endorphin in the rat neurointermediate pituitary lobe.
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PMID:Dopamine affects the in vitro basal secretion of rat placenta opioids in an opioid and dopamine receptor type-specific manner. 896 Aug 64


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