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Query: UNIPROT:P01189 (
beta-endorphin
)
21,003
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Cholecystokinin octapeptide (CCK-8) is a potent corticotroph secretagogue. Consistent with earlier reports, the present results demonstrate that CCK-8 administration to rats elevates circulating
beta-endorphin
and
adrenocorticotropin
, but not
alpha-melanocyte-stimulating hormone
concentrations. This response was blocked by dexamethasone pretreatment, but not by vagotomy, and it could not be reproduced by i.c.v. CCK-8 injection, evidence that CCK-8 exerts its effects by directly activating cholecystokinin (CCK) receptors localized on anterior pituitary corticotrophs rather than in brain or the vagus nerve. Subsequent experiments demonstrated further that type A CCK receptors primarily mediate the stimulatory effect of CCK-8 on corticotroph secretion. Thus, devazepide, a selective
CCK-A receptor
antagonist, produced a dose-related inhibition of the CCK-8-stimulated rise in circulating
beta-endorphin
concentrations. Less selective
CCK-A
antagonists, including proglumide and lorglumide, produced little or no effect, however. Unexpectedly, the CCK-B receptor antagonist, L-365,260, enhanced the response to CCK-8, an effect diametrically opposite to that produced by
CCK-A
antagonists. These observations indicate that
CCK-A
and CCK-B receptors mediate quite different, if not opposing, roles in regulating corticotroph secretion.
...
PMID:Cholecystokinin type A and type B receptor antagonists produce opposing effects on cholecystokinin-stimulated beta-endorphin secretion from the rat pituitary. 157 60
Subcutaneous (sc) administration of 200 micrograms/kg ceruletide (CER), a decapeptide chemically related CCK-8, and 5 mg/kg haloperidol (HLP) to rats increased the plasma immunoreactive
beta-endorphin
(ir-beta-END) level. The combined injection of CER and haloperidol caused higher plasma ir-beta-END levels than either drug alone. High plasma ir-beta-END levels returned to control levels on the 2nd day. Prior intraperitoneal (ip) administration of a CCK receptor antagonist, L-364,718 (3 mg/kg), but not proglumide (400 mg/kg, ip), inhibited CER-induced, but not HLP-induced, elevation in plasma ir-beta-END levels. The dopamine agonist, bromocriptine (1 mg/kg, ip) decreased plasma ir-beta-END levels, but had not effect on CER-induced elevation in plasma ir-beta-END levels, whereas bromocriptine-induced reduction in plasma ir-beta-END levels was antagonised by HLP. CER injection to chronically HLP-treated rats caused a greater elevation of plasma ir-beta-END levels compared to saline-injected rats. In contrast to the acute experiment, plasma ir-beta-END levels remained elevated over a period of 24 h. In the acute experiment, CER, HLP or the combined treatment with these two drugs had no effect on ir-beta-END contents in the pituitary gland and brain. In the chronic experiment, HLP increased the adenohypophyseal and septal ir-beta-END contents and decreased the hippocampal ir-beta-END contents 24 h after the final HLP injection. CER caused a small reduction only in the hippocampal ir-beta-END contents of CER-injected rats 15 min after injection. When determined on the 2nd day, however, the increases in the adenohypophyseal and septal ir-beta-END contents and the decrease in the hippocampal ir-beta-END contents observed in CER-injected rats were of the same magnitude as those of rats not given the CER injection. These findings indicate that CER stimulates the release of ir-beta-END from the adenohypophysis through
CCK-A
receptors and that elevated plasma ir-beta-END levels is partly involved in some behavioural effects induced by CER. Furthermore, sustained elevation of plasma ir-beta-END levels after a single injection of CER to chronically HLP-treated rats may explain its long-lasting therapeutic and behavioural effects.
...
PMID:Effects of ceruletide and haloperidol on the hypothalamo-pituitary beta-endorphin system and brain beta-endorphin contents in the rat: with special reference to effects of ceruletide in chronically haloperidol-treated rats. 204 84
The numerous endogenous opioid peptides (
beta-endorphin
, enkephalins, dynorphins ... ) and the exogenous opioids (such as morphine) exert their effects through the activation of receptors belonging to four main types, mu, delta, kappa and epsilon. Opioidergic neurones and opioid receptors are largely distributed centrally and peripherally. It is thus not surprising that opioids have numerous pharmacological effects and that endogenous opioids are thought to be involved in the physiological control of various functions, among which nociception is particularly emphasized. Some opioid targets may be components of homeostatic systems tending to reduce the effects of opioids. "Anti-opioid" properties have been attributed to various peptides, especially cholecystokinin (CCK), neuropeptide FF (NPFF) and melanocyte inhibiting factor (MIF)-related peptides. In addition, a particular place should be attributed, paradoxically, to opioid peptides themselves among the anti-opioid peptides. These peptides can oppose some of the acute effects of opioids, and a hyperactivation of anti-opioid peptidergic neurones due to the chronic administration of opioids may be involved in the development of opioid tolerance and/or dependence. In fact, CCK, NPFF and the MIF family of peptides have complex properties and can act as opioid-like as well as anti-opioid peptides. Thus, "opioid modulating peptides" would be a better term to designate these peptides, which probably participate, together with the opioid systems, in multiple feed-back loops for the maintenance of homeostasis. "Opioid modulating peptides" have generally been shown to act through the activation of their own receptors. For example, CCK appears to exert its anti-opioid actions mainly through the activation of CCK-B receptors, whereas its opioid-like effects seem to result from the stimulation of
CCK-A
receptors. However, the partial agonistic properties at opioid receptors of some MIF-related peptides very likely contribute to their ability to modulate the effects of opioids. CCK- and NPFF-related drugs have potential therapeutic interest as adjuncts to opioids for alleviating pain and/or for the treatment of opioid abuse.
...
PMID:Opioid and anti-opioid peptides. 861 6
The circadian activity of the hypothalamic-pituitary-adrenal (HPA) axis is regulated by caloric flow in rats. During the dark cycle, it has been shown that, in fasted rats, the time-course profile of plasma concentrations of
adrenocorticotropin
(ACTH) and corticosterone parallels the profile of food intake in ad libitum fed animals. Cholecystokinin (CCK) is involved in regulating food intake in rodents. CCK-8 reduces food intake by acting on
CCK-A
receptors subtype. This work aims at establishing an eventual relationship between the modulatory role of CCK on food intake and its effect on HPA axis activity during fasting. We studied the effect of
CCK-A
and CCK-B receptor antagonists on food intake during the first period of the dark cycle. Under these conditions we observed that the
CCK-A receptor
antagonist, SR-27897 (0.3 mg kg(-1)), but not the CCK-B receptor antagonist, L-365260 (1 mg kg(-1)), increases food-intake. In a second series of experiments we observed that the increase of both ACTH and corticosterone plasma level elicited by fasting, was prevented by SR-27897, but not by L-365260. These results indicate that
CCK-A receptor
blockade during fasting prevents the activation of the HPA axis.
...
PMID:Inhibition of the hypothalamic-pituitary-adrenal axis in food-deprived rats by a CCK-A receptor antagonist. 1069 79
Cholecystokinin, or CCK, is a 33-amino acid peptide, originally considered a gut hormone, that acts via two subtypes of receptors, named
CCK1-R
and CCK2-R. CCK, along with its receptors, has been subsequently localized in the central nervous system, where it exerts, among other fuctions, antiorexinogenic actions. In this survey, we describe findings indicating that CCK, similar to other peptides modulating food intake (e.g., neuropeptide Y, leptin, and orexins), is also able to regulate the function of the hypothalamo-pituitary-adrenal axis, acting on both its central and peripheral branches. CCK stimulates aldosterone secretion via specific receptors (CCK1-Rs and CCK2-Rs in rats, and CCK2-Rs in humans) located in zona glomerulosa cells and coupled to the adenylate cyclase-dependent signaling cascade; and enhances glucocorticoid secretion from zona fasciculata-reticularis cells via an indirect mechanism mainly involving the CCK2-R-mediated stimulation of
corticotropin
-releasing hormone-dependent ACTH release.
...
PMID:Cholecystokinin and adrenal-cortex secretion. 1611 77
