UNIPROT:P01189 - FACTA Search

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Query: UNIPROT:P01189 (beta-endorphin)
21,003 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The effect of nicotine injected intrathecally (i.t.) on the inhibition of the tail-flick response induced by morphine, beta-endorphin, D-Pen2,5-enkephalin (DPDPE), or [(trans-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl)cyclohexyl] benzeocetamide)] (U50,488H) administered i.t. was studied in ICR mice. The i.t. injection of nicotine alone at doses from 1 to 12 microg produced only a minimal inhibition of the tail-flick response. Morphine (0.2 microg), beta-endorphin (0.1 microg), DPDPE (0.5 microg) or U50,488H (6 microg) caused only slight inhibition of the tail-flick response. Nicotine injected i.t. dose dependently enhanced the inhibition of the tail-flick response induced by i.t. administered morphine (0.2 microg). However, i.t. injected nicotine at the same doses was not effective in enhancing the inhibition of the tail-flick response induced by beta-endorphin, DPDPE, or U50,488H administered i.t. Our results suggest that stimulating nicotinic receptors located in the spinal cord may enhance the antinociception induced by morphine administered spinally. However, the activation of nicotinic receptors at the spinal level may not be involved in modulating the antinociception induced by beta-endorphin, DPDPE, and U50,488H administered spinally.
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PMID:Intrathecally injected nicotine enhances the antinociception induced by morphine but not beta-endorphin, D-Pen2,5-enkephalin and U50,488H administered intrathecally in the mouse. 891 64

The effect of nicotine administered supraspinally on antinociception induced by supraspinally administered opioids was examined in ICR mice. The intracerebroventricular (i.c.v.) injection of nicotine alone at doses from 1 to 12 micrograms produced only a minimal inhibition of the tail-flick response. Morphine (0.2 micrograms), beta-endorphin (0.1 microgram), D-Pen2.5-enkephalin (DPDPE; 0.5 microgram), trans-3,4-dichloro-N-methyl-N-[2-(1-pyrrolidinyl) cyclohexyl] benzeocetamide (U50, 488H; 6 micrograms) caused only slight inhibition of the tail-flick response. Nicotine dose dependently enhanced inhibition of the tail-flick response induced by i.c.v. administered morphine (0.2 microgram) or beta-endorphin (0.1 microgram). The degree of enhancing effect of nicotine toward beta-endorphin-induced inhibition of the tail-flick response was greater than toward morphine-induced inhibition of the tail-flick response. However, i.c.v. administered nicotine at the same doses was not effective in enhancing the inhibition of the tail-flick response induced by DPDPE (0.5 microgram) or U50, 488H (6 micrograms) administered i.c.v. Our results suggest that stimulation of supraspinal nicotinic receptors may enhance antinociception induced by morphine (a mu-opioid receptor agonist) and beta-endorphin (an epsilon-opioid receptor agonist) administered supraspinally. However, the activation of nicotinic receptors at supraspinal sites may not be involved in enhancing the antinociception induced by DPDPE (a delta-opioid receptor agonist) or U50, 488H (a kappa-opioid receptor agonist) administered supraspinally.
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PMID:Nicotine enhances morphine- and beta-endorphin-induced antinociception at the supraspinal level in the mouse. 892 11

1. The modulator effects of a series of neurotransmitters and related substances were tested on responses to adenosine 5'-triphosphate (ATP) at a recombinant P2x2 receptor expressed in defolliculated Xenopus oocytes. 2. Nicotine, 5'-hydroxytryptamine (5-HT), noradrenaline, adenosine, bradykinin and histamine (all 100 microM) potentiated the responses to ATP (3 microM). an effect found due to acidification of the bathing solution by these drugs. 3. Arachidonic acid, met-enkephalin, substance P, calcitonin gene-related peptide (CGRP) (all 100 microM) and nerve growth factor (NGF; 50 ng ml-1) potentiated the responses to ATP (3 microM) through a largely or wholly pH-independent effect. 4. Small acidic and alkaline shifts, as little as 0.03 pH-units, enhanced or diminished the responses to ATP, respectively. A linear relationship existed between the degree of potentiation of the ATP-induced responses caused by nicotine, 5-HT, noradrenaline, adenosine, bradykinin and histamine and the potentiation of these responses induced by the addition of acid to the superfusate. 5. Since P2x receptors on sensory neurones include P2x2 subunits, the attendant acidosis and ATP-release associated with tissue injury may play a role in sensitizing sensory nerve fibres.
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PMID:Potentiation of ATP-responses at a recombinant P2x2 receptor by neurotransmitters and related substances. 911 13

Nicotine is known to have multiple effects on neuroendocrine, autonomic, and behavioral responses. Its neuroendocrine effect on the stress-responsive hormone, ACTH, depends on central pathways that act on corticotropin-releasing hormone (CRH) neurons in the paraventricular nucleus of the hypothalamus (PVN). Other CRH neurons throughout the brain also are involved in coordinating aspects of the stress response, but very little is known about the effect of nicotine on CRH neurons in extrahypothalamic regions that are involved in the autonomic and behavioral responses to stress. The current study sought to determine the extent of nicotinic activation of extrahypothalamic CRH neurons, since these neurons may be involved in mediating the central effects of nicotine. Freely moving rats were pretreated with a low dose of colchicine, infused with nicotine (0.045 mg/kg/30 s or 0.135 mg/kg/90 s, i.v.), and cardiac perfused 1 h later. Double-label immunocytochemistry identified the activated (positive for cFos protein) CRH neurons in limbic structures (bed nucleus of the stria terminalis [BNST] and central nucleus of the amygdala [CNA]), the dorsal raphe (DR), and Barrington's nucleus (BN); comparisons were made to the PVN. In all of these areas, nicotine activated CRH neurons in a dose-dependent manner, showing differential sensitivity and efficacy with respect to region. CNA CRH neurons were most responsive and were maximally stimulated by the low dose of nicotine (62% of CRH neurons were cFos+, compared to 10-27% of the CRH population in other regions, including the PVN). Although the BNST also was activated by the low dose, only the non-CRH+ neurons were involved; in contrast, 41% of the BNST CRH neurons responded to the higher dose. Nicotinic activation of DR neurons was dose-dependent, with 22% of the CRH neurons activated by the high dose. Few BN neurons were activated by the low dose of nicotine, but 26% of the CRH population responded to the higher dose. These results indicate that the effect(s) of nicotine on the brain may be mediated, in part, by the selective activation of specific extrahypothalamic regions containing CRH neurons that also are involved in autonomic and behavioral responses to stress. The large fraction of CRH neurons responding to the low dose of nicotine in the CNA suggests that this limbic region may be particularly important in mediating these CNS effects of nicotine.
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PMID:Nicotinic activation of CRH neurons in extrahypothalamic regions of the rat brain. 954 51

Nicotine has been shown to be a potent stimulus for the secretion of the stress-responsive hormones, adrenocorticotropin (ACTH) and prolactin. This paper reviews the findings by our laboratory and others that demonstrate the polysynaptic pathways involved in the neuroendocrine responses to systemic nicotine. It will focus primarily on the hypothalamo-pituitary-adrenal (HPA) axis and the effect of nicotine on ACTH secretion, with supplementary information on prolactin secretion, where relevant. Data are presented demonstrating that nicotine acts via a central mechanism to stimulate indirectly the release of ACTH from the anterior pituitary corticotropes. Nicotine does not appear to act directly at the hypothalamic paraventricular nucleus (PVN), the site of the corticotropin-releasing hormone (CRH) neurons crucial to the regulation of ACTH. However, brainstem catecholaminergic regions projecting to the PVN showed a regionally selective and dose-dependent sensitivity to nicotine, particularly the noradrenergic/adrenergic nucleus tractus solitarius (NTS). A reduction in the modulatory effect of these catecholamines (by neurotoxic lesion, synthetic enzyme inhibitors or adrenergic receptor antagonists) resulted in an inhibition of nicotine-stimulated ACTH secretion. In addition, blockade of nicotinic cholinergic receptors (NAchRs) in the brainstem by the antagonist, mecamylamine, resulted in a dose-dependent reduction in norepinephrine (NE) release from terminals in the PVN, and a concomitant reduction in plasma ACTH. The differential sensitivity of these receptors to the nicotinic agonists, cytisine and nicotine, reflects the heterogeneity of the NAchR subtypes involved. The desensitization characteristics of the neuroendocrine responses to both acute and chronic nicotine exposure are indicative of an alteration in these NAchRs.
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PMID:Response of the hypothalamo-pituitary-adrenal axis to nicotine. 962 92

In previous research we found that interleukin-2 (IL-2)-induced corticotropin-releasing hormone (CRH) release in vitro is mediated by cholinergic activation of nitric oxidergic (NOergic) neurons. The NOergic neurons release nitric oxide that stimulates CRH release. To further characterize the mechanism of IL-2-induced CRH release, the possible role of nicotinic as well as muscarinic receptors in IL-2-stimulated CRH release was evaluated. Medial hypothalamic (MH) explants from adult male rats were preincubated in Krebs-Ringer (KRB) buffer for 45 min followed by incubation for an additional 30 min in fresh KRB or KRB containing various compounds. As previously reported, acetylcholine (ACH) stimulated CRH release in a dose-related fashion. IL-2 (10(-13) M) stimulation of CRH release was unaffected by the lower concentration of ACH (10(-9) M), but surprisingly was inhibited by a 100-fold higher concentration. Atropine (ATR) (10(-7) M) blocked CRH release induced by ACH (10(-7) M) and the release of CRH induced by IL-2. The cholinergic agonist carbachol (CAR) (10(-7) M) also released CRH and this action was blocked by ATR (10(-7) M). CRH release in the presence of CAR was lowered below basal when the concentration of ATR was increased to 10(-6) M. In contrast to ACH, CAR had an additive effect to release CRH when combined with IL-2 (10(-13) M). Nicotine (10(-7) M) also stimulated CRH release and this stimulation was completely blocked by 10(-6) M but not by 10(-7) M of the nicotinic receptor blocker, hexamethonium (HEX). The lower concentration of HEX blocked the stimulatory effect of ACH (10(-7) M) and IL-2 on CRH release. Combined blockade with ATR plus HEX completely blocked the action of ACH and even reduced the CRH concentration to below basal values. Furthermore, combined blockade completely blocked the release of CRH induced by IL-2. We conclude that nicotinic as well as muscarinic receptors play an important role in CRH release, and that they both act to mediate IL-2-stimulated CRH release.
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PMID:Effects of cholinergic agonists and antagonists on interleukin-2-induced corticotropin-releasing hormone release from the mediobasal hypothalamus. 1021 14

The neuropeptides, monoamines and many drugs involved with modulating food intake and fat stores have reciprocal effects on sympathetic activity and thermogenesis. Both serotonin, acting through 5HT1B/2C receptors, and norepinephrine acting through beta2 and/or beta3 receptors reduce food intake and augment sympathetic activity. Neuropeptide Y, beta-endorphin, orexin, galanin and melanin concentrating hormone all increase food intake and, where tested, reduce sympathetic activity. In contrast, a larger number of peptides including cholecystokinin, corticotrophin-releasing hormone/urocortin, enterostatin, leptin, CART and alpha-MSH reduce food intake and increase sympathetic activity. Nicotine, prostaglandin, dexfenfluramine and sibutramine also have this reciprocal effect on feeding and sympathetic nervous system (SNS) activity. Chronic administration of neuropeptide Y (NPY) can produce chronically increased food intake and obesity. This syndrome is similar to the ventromedial hypothalamus (VMH) syndrome and suggests that NPY must be acting as an inhibitory signal to stimulate a feeding system and inhibit sympathetic activity. The melanocortin receptor system may be particularly important in modulating food intake, because a transgenic mouse which does not express melanocortin-4 receptors is massively overweight. Adrenal glucocorticoids are important in obesity since adrenalectomy will reverse or prevent the development of all forms of obesity. The clinical importance of the sympathetic nervous system and food intake is emphasized by the inverse relation of sympathetic activity and body fat. The inhibition of food intake, lower body fat stores and higher energy expenditure in smokers also support this hypothesis. The reciprocal relationship between food intake and sympathetic activity is robust, suggesting that beta receptors in the periphery and brain may be involved in the control of feeding and a reduction in food intake in humans accounts for most of the weight loss with ephedrine and caffeine. We conclude that the inhibition of feeding by activating the SNS is an important satiety system which helps regulate body fat stores.
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PMID:Reciprocal relation of food intake and sympathetic activity: experimental observations and clinical implications. 1099

We studied the changes of met-enkephalin (Met-Enk) content and preproenkephalin (PPE) mRNA in the striatum in a mouse model of nicotine abstinence. Nicotine, 2 mg/kg, s.c., was administered four times daily for 14 days and Met-Enk and PPE mRNA evaluated at various times (4-96 h) following drug discontinuation. Met-Enk, assayed by radioimmunoassay, was increased in the ventral (nucleus accumbens) but not dorsal (putamen/caudate) striatum, while PPE mRNA, assayed in whole striatum by Northern blotting was elevated. Both changes were seen early during withdrawal and lasted over 72 h. In situ hybridization revealed enhanced signal in the dorsal striatum, mostly laterally, and smaller increases in the rostral pole, core and shell of the nucleus accumbens. These observations indicate that during nicotine withdrawal, striatal enkephalinergic neurons undergo adaptative responses, which might contribute to the abstinence behavioral syndrome.
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PMID:Met-enkephalin and preproenkephalin mRNA changes in the striatum of the nicotine abstinence mouse. 1202 68

Nicotine is a potent stimulus for the hypothalamic-pituitary-adrenal (HPA) axis. Systemic nicotine acts via central mechanisms to stimulate by multiple pathways the release of ACTH from the anterior pituitary corticotrops and corticosterone from the adrenal cortex. Nicotine may stimulate indirectly the hypothalamic paraventricular nucleus, the site of the corticotropin-releasing hormone (CRH) neurons which activates ACTH release. In the present studies an involvement of adrenergic system and prostaglandins synthesized by constitutive cyclooxygenase (COX-1) and inducible cyclooxygenase (COX-2) in the nicotine-induced HPA response in rats was investigated. Nicotine (2.5-5 mg/kg i.p.) significantly increased plasma ACTH and corticosterone levels measured 1 hr after administration. Adrenergic receptor antagonists or COX inhibitors were injected i.p. 15 min prior to nicotine and the rats were decapitated 1 hr after the last injection. Prazosin (0.01-0.1 mg/kg), an alpha1-adrenergic antagonist, significantly decreased the nicotine-evoked ACTH and corticosterone secretion. Yohimbine (0.1-1.0 mg/kg), an alpha2-adrenergic antagonist, moderately diminished ACTH response, and propranolol (0.1-10 mg/kg), a beta-adrenergic antagonist, did not significantly alter the nicotine-induced hormones secretion. Pretreatment with piroxicam (0.2-2.0 mg/kg), a COX-1 inhibitor, considerably impaired the nicotine-induced ACTH and corticosterone secretion. Compound NS-398 (0.2-5.0 mg/kg), a selective COX-2 blocker did not markedly alter these hormones secretion, and indomethacin (2 mg/kg), a non-selective COX inhibitor significantly diminished ACTH response. These results indicate that systemic nicotine stimulates the HPA axis indirectly, and both adrenergic system and prostaglandins are significantly involved in this stimulation. Noradrenaline, stimulating postsynaptic alpha1-adrenergic receptors, and prostaglandins, synthesized by COX-1 isoenzyme, are of crucial significance in the nicotine-induced ACTH and corticosterone secretion.
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PMID:Effect of adrenergic antagonists and cyclooxygenase inhibitors on the nicotine-induced hypothalamic-pituitary-adrenocortical activity. 1212 Sep 2

Gender and genotype result in differential sensitivity to stress and to nicotine. Male and female Sprague-Dawley and Long-Evans rats exhibit different behavioral responses to immobilization stress and to chronically-administered nicotine, suggesting that these animals may be useful to model human variability in stress and nicotine sensitivity. It is possible that differences in sensitivity of the hypothalamo-pituitary-adrenocortical (HPA) axis might account for these sex and strain differences. This experiment examined corticosterone (CORT) and adrenocorticotropin hormone (ACTH) responses of male and female Sprague-Dawley (n=117) and Long-Evans (n=120) rats administered 0, 6, or 12 mg/kg/day nicotine for 14 days; half of each treatment group was exposed to immobilization stress (20 min/day). Feeding and body weight also were measured. Nicotine increased CORT and ACTH levels of Sprague-Dawley females only. Stress increased CORT and ACTH levels of all groups except for Long-Evans females. Nicotine and stress decreased feeding and body weight with greatest effects in Long-Evans females. CORT, feeding, and body weight were positively correlated among stressed females. These findings suggest that strain differences in HPA axis, body weight, and feeding responses to nicotine and to stress are robust among females but not among males. CORT reactivity and female sex hormones may explain these differences.
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PMID:Strain and sex alter effects of stress and nicotine on feeding, body weight, and HPA axis hormones. 1582 May 27

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