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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Phencyclidine (
PCP
) has been found to affect neuroendocrine function by altering the release of the anterior pituitary hormones, adrenocorticotrophin, luteinizing hormone and prolactin. The purpose of this study was to examine the effect of
PCP
on release of the two pituitary hormones also derived from the
adrenocorticotropin
precursor, namely,
alpha-melanocyte-stimulating hormone
and
beta-endorphin
(beta-E), synthesized in the neurointermediate and anterior lobes of the pituitary. At behaviorally active doses,
PCP
administered i.c.v. increased plasma levels of immunoreactive beta-E (i beta-E) without affecting the concentration of immunoreactive
alpha-melanocyte-stimulating hormone
, suggesting that
PCP
increased the release of beta-E from only the anterior lobe of the pituitary. Dexamethasone pretreatment blocked the
PCP
-induced increase in i beta-E which indicated further the anterior lobe effects of
PCP
. MK-801 [(+)-5-methyl-10,11-dihydro-5H-dibenzo [a,d]cyclohepten-5,10-imine maleate), a selective
PCP
ligand, at behaviorally active doses also increased the plasma concentration of i beta-E. The dose-response curves for induction of behavior was very different from that for increasing the concentration of i beta-E in plasma. The increase in release of i beta-E was stereoselective as (+)-(1-(1-phenylcyclohexyl)-3 methylpiperidine but not (-)-(1-(1-phenylcyclohexyl)-3 methylpiperidine increased release of i beta-E. The increase in plasma levels of beta-E was not due to an interaction with opioid receptors because naloxone did not block
PCP
-induced release of beta-E. In vitro,
PCP
also significantly increased release of i beta-E from anterior lobe of the pituitary.(ABSTRACT TRUNCATED AT 250 WORDS)
...
PMID:Phencyclidine increased release of beta-endorphin from anterior lobe of the pituitary. 165 42
The release of free [3H]arachidonic acid and its metabolites (AAM) from mouse embryo cortical neurones cultured in serum-free medium stimulated by
beta-endorphin
C-terminal dipeptide (glycl-L-glutamine, Gly-Gln) was investigated. Gly-Gln but not the related dipeptide, glycyl-glutamic acid, caused a 2-fold elevation of AAM release which was blocked in the absence of extracellular calcium, in the presence of 5 mM magnesium and by the phospholipase A2 (PLA2) inhibitor, mepacrine. Other proopiomelanocortin (POMC) peptides did not elicit AAM release. The response to Gly-Gln was unaffected by D-amino-2-phospho-5-valeric acid (AP5) and 7-chlorokynurenic acid (7-ClKY), antagonists respectively at the ligand and allosteric glycine binding sites of the NMDA glutamate receptor subtype. However, it was inhibited in a dose-dependent manner by antagonists at the phencyclidine (
PCP
) and sigma sites. The results suggest that Gly-Gln causes AAM release by activating PLA2 through the mediation of a
PCP
/sigma-like receptor.
...
PMID:Beta-endorphin C-terminal peptide evokes arachidonic acid release from cortical neurones. 190 34
Phencyclidine (
PCP
) markedly stimulates the pituitary-adrenal axis in the rat, inducing the release of
adrenocorticotropin
(ACTH) and corticosterone. However, the site or sites where
PCP
produces these effects is not known. This study sequentially examined the effects of
PCP
on the different components of the central nervous system-pituitary-adrenal axis.
PCP
did not produce corticosterone release in dispersed adrenal cells in vitro, nor did it stimulate the release of corticosterone in hypophysectomized rats, showing that
PCP
-induced corticosterone release in intact animals is secondary to the release of ACTH from the pituitary.
PCP
failed to alter either the basal or the corticotropin releasing factor-induced release of ACTH from superfused pituitaries in vitro, indicating that
PCP
does not act directly at the level of the pituitary.
PCP
increased plasma levels of ACTH in adrenalectomized rats, demonstrating that
PCP
does not stimulate the release of ACTH only by blocking glucocorticoid negative feedback mechanisms.
PCP
stimulated the release of both ACTH and corticosterone when given by injection directly into brain via the lateral cerebral ventricles. These results indicate that
PCP
activates the pituitary-adrenal axis by acting at a site or sites within the central nervous system, leading to the subsequent release of ACTH from the pituitary.
...
PMID:Determination of the loci of action of phencyclidine on the CNS-pituitary-adrenal axis. 216 1
Phencyclidine (
PCP
) is a widely used drug of abuse; however, little is known of its effects on neuroendocrine function. The present study characterized the effects of the acute and chronic administration of
PCP
on the release of
adrenocorticotropin
, corticosterone and prolactin in the rat. For the acute studies,
PCP
hydrochloride (0.5-10.0 mg/kg s.c.) was administered and the subjects were sacrificed 15 to 300 min later. The acute administration of
PCP
produced rapid and long-lasting increases in plasma levels of
adrenocorticotropin
and corticosterone but decreased plasma levels of prolactin. For the chronic studies,
PCP
(1.0-20.0 mg/kg/day s.c.) was injected daily and the subjects sacrificed 60 min after injection on day 15.
PCP
continued to stimulate the pituitary-adrenal axis after chronic administration; however, there was a decrease in the magnitude of response, indicating the development of some degree of tolerance. In contrast, none of the doses of
PCP
tested decreased plasma prolactin levels in chronically treated subjects. There were no differences in plasma or brain levels of
PCP
in the chronically
PCP
-treated rats, indicating that tolerance was not due to changes in the biodisposition of
PCP
. These results indicate that
PCP
disrupts neuroendocrine function markedly in the rat. The differential development of tolerance to the effects of
PCP
on the pituitary-adrenal axis and prolactin release may indicate that different neurochemical substrates underlie the effects of
PCP
on different endocrine systems.
...
PMID:Characterization of the effects of the acute and chronic administration of phencyclidine on the release of adrenocorticotropin, corticosterone and prolactin in the rat: evidence for the differential development of tolerance. 254 36
The potent opiate radioligands [3H]etorphine, [3H]ethylketocyclazocine (EKC), and [3H]naloxone, bound specifically and saturably to a single class of membrane-binding sites in rat neurointermediate lobe (NIL), with Kd values of 3.7, 24, and 51 nM, respectively. In the hypothalamus (Ht), [3H]etorphine bound to specific and saturable sites with a Kd of 2.9 nM. Binding-inhibition studies with [3H]etorphine and unlabeled etorphine-HCl as well as [3H]EKC and unlabeled EKC, revealed high and low affinity binding sites in rat Ht and NIL as well as in the neural lobe of the bovine pituitary gland. [3H]naloxone also bound specifically to two classes of sites in Ht membranes, but to only a single class of low affinity sites in NIL membranes. Specific binding represented 80-90% of total [3H]etorphine binding, about 75% of total [3H]EKC binding, and 45-55% of total [3H]naloxone binding at 22 C in NIL and Ht, respectively. Relative binding potencies derived from Ki values for binding-inhibition studies of [3H]etorphine with opioid peptides and opiates were: NIL, etorphine-HCl greater than dynorphin A greater than naloxone-HCl greater than dynorphin-(1-9) greater than
beta-endorphin
much greater than alpha-neoendorphin approximately (Leu5)enkephalin approximately DAGO (Tyr-D-Ala-Gly-NMe-Phe-Gly-ol); Ht, etorphine HCl greater than naloxone-HCl greater than
beta-endorphin
greater than dynorphin A much greater than DAGO greater than morphiceptin much greater than (Leu5)enkephalin. Specific [3H]etorphine binding was also demonstrable after preincubation of NIL membranes with DAGO and (Leu5)enkephalin and after preincubation of Ht membranes with morphiceptin and (Leu5)enkephalin; such binding could be displaced by nonradioactive dynorphin A. In addition, [3H]etorphine binding to bovine neural lobe was displaceable by naloxone-HCl, with an ED50 of 43 nM. Specific ligands for sigma-opiate receptors, such as (+)SKF 10,047 (N-allylnorcyclazocine), phencyclidine (
PCP
), and (-)cyclazocine, displaced specifically bound [3H]etorphine and [3H]EKC from NIL membranes only at high (micromolar) concentrations. However, specific [3H]
PCP
sites were of higher affinity in NIL and Ht membranes, with similar Kd values of 102 and 190 nM respectively, and different concentrations (0.15 and 1.32 pmol/mg protein, respectively). These data have revealed several differences in the opiate-binding properties of rat Ht and NIL membranes.(ABSTRACT TRUNCATED AT 400 WORDS)
...
PMID:Opiate receptor subtypes in the rat hypothalamus and neurointermediate lobe. 303 71
The study investigated the interaction between phencyclidine (
PCP
) and morphine in affecting the levels of
met-enkephalin
, dopamine, DOPAC and HVA in mice. Morphine 5 mg/kg alone and
PCP
10 mg/kg alone failed to change the levels of
met-enkephalin
in the midbrain and striatum. However,
PCP
in combination with morphine produced an increase in
met-enkephalin
levels and a decrease in HVA levels. In the midbrain, there was a direct relationship between the decrease in
met-enkephalin
levels and the increase in HVA levels. These results suggest that
PCP
may change the function in dopaminergic and enkephalinergic neuronal systems in the midbrain and/or striatum.
...
PMID:Effects of phencyclidine in combination with morphine on the levels of met-enkephalin, dopamine, DOPAC and HVA in discrete brain areas of mice. 383 60
Evidence from a variety of experimental models has suggested the existence of mu 1, mu 2 and delta binding sites for morphine and the enkephalins in the central nervous system. Additional biochemical experiments now support this concept of a common high affinity site for opiates and opioid peptides. Mu sites have now been implicated in a number of pharmacological actions, including supraspinal analgesia, prolactin release, and catalepsy, but not in others (spinal analgesia, respiratory depression, and the guinea pig ileum). The hypothesis of mu 1 sites was supported by the unique opioid meptazinol, which selectively bound to mu 1 sites. As expected from its mu 1 binding selectivity, its analgesic actions in the mouse, localized supraspinally, were antagonized by the selective mu 1 antagonist naloxonazine and it had no respiratory depressant actions. Other binding studies suggested the presence of discrete SKF10,047-selective (KD approximately 5 nM) binding sites in rat brain which differed from both kappa sites and the previously reported
PCP
-binding sigma sites. Additional binding and autoradiographical studies have also implied the presence of
beta-endorphin
, or epsilon, sites in the CNS.
...
PMID:Biochemical and pharmacological evidence for opioid receptor multiplicity in the central nervous system. 631 56
The present study characterized the response of the hypothalamo-pituitary-adrenal axis after the acute administration of enantiomeric pairs of drugs that bind to phencyclidine (
PCP
) and sigma receptors. Rats were injected with the enantiomers of 1-(1-phenylcyclohexyl)-3-methylpiperidine (PCMP), N-allylnormetazocine (SKF 10,047), dioxadrol (dexoxadrol and levoxadrol) or pentazocine, and plasma levels of
adrenocorticotropin
(ACTH) and corticosterone were determined by radioimmunoassay. The effects of the enantiomers of PCMP and dioxadrol showed stereospecificity as both (+)-PCMP and dexoxadrol increased plasma levels of ACTH and corticosterone but (-)-PCMP and levoxadrol had no effect. Whereas (-)-pentazocine produced greater responses than (+)-pentazocine, the two enantiomers of SKF 10,047 did not show stereoselectivity. Although the potency of the enantiomers of PCMP and dioxadrol parallel their affinity for binding to
PCP
receptors, the potency of the enantiomers of pentazocine did not. These results suggest that although the stimulation of the hypothalamo-pituitary-adrenal axis by
PCP
and drugs with
PCP
-like activity might be due to interactions with
PCP
receptors, the effects of pentazocine also involve interactions at other sites.
...
PMID:Neuroendocrine responses produced by enantiomeric pairs of drugs that interact with phencyclidine and sigma receptors. 782 43
Phencyclidine (
PCP
) activates the hypothalamo-pituitary-adrenal (HPA) axis and decreases plasma prolactin levels in the rat.
PCP
is a noncompetitive N-methyl-d-aspartate (NMDA) receptor antagonist, but it also inhibits the reuptake of dopamine, serotonin and norepinephrine. The purpose of the present study was to utilize the
PCP
analogue N-[1-(2-thienyl)cyclohexyl]piperidine; (TCP), the potent dopamine reuptake inhibitor N-[1-(2-benzo(b)thiophenyl) cyclohexyl]piperidine; (BTCP) and the nonselective monoamine reuptake inhibitor cocaine as pharmacologic probes in order to determine the roles of noncompetitive NMDA receptor blockade and inhibition of dopamine reuptake in the neuroendocrine effects of
PCP
.
PCP
, TCP and cocaine increased plasma levels of
adrenocorticotropin
and corticosterone, but BTCP had no effect. In contrast,
PCP
, BTCP and cocaine decreased plasma prolactin, but TCP produced no such effect. The data suggest that mechanisms besides inhibition of dopamine reuptake are involved in the effects of
PCP
on the HPA axis, and the
PCP
-induced decrease in plasma prolactin is not a consequence of inhibition of NMDA receptor-mediated neurotransmission.
...
PMID:The role of antagonism of NMDA receptor-mediated neurotransmission and inhibition of the dopamine reuptake in the neuroendocrine effects of phencyclidine. 1628 27
