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 excitatory neurotransmitter, L-glutamate (0.5 M, pH 7.4), or the organic acid, acetate (0.5 M, pH 7.4), was microinjected (50 nl over 2 min) directly into the paraventricular nuclei (PVN) of pentobarbital sodium-anesthetized rats while arterial blood pressure and heart rate and plasma adrenocorticotropic hormone (ACTH), vasopressin, and oxytocin were measured. Activation of PVN neurons with L-glutamate led to increases in plasma ACTH, vasopressin, and oxytocin and a profound bradycardia (approximately 80 beats/min) with little change in arterial blood pressure. Microinjection of acetate had no effect on the above variables. The decrease in heart rate was shown to be dependent on the concentration of glutamate injected and the volume of injectate. The bradycardia was mediated through the autonomic nervous system because ganglionic blockade (pentolinium tartrate) eliminated the response; atropine and propranolol severely attenuated the bradycardia. The bradycardia was greatest when L-glutamate was microinjected into the caudal PVN. Injections into the rostral PVN or into nuclei surrounding the PVN led to small or nonsignificant decreases in heart rate. Focal electric stimulation (2-50 microA) of the PVN also led to decreases in heart rate and arterial blood pressure. These data suggest that activation of PVN neurons leads to the release of ACTH, vasopressin, and oxytocin from the pituitary and a bradycardia that is mediated by the autonomic nervous system.
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PMID:Paraventricular stimulation with glutamate elicits bradycardia and pituitary responses. 256 5

Indirect immunofluorescence histochemistry and receptor autoradiography were used to study the localization of transmitter-/peptide-containing neurons and peptide binding sites in the mediobasal hypothalamus in normal rats and in rats treated neonatally with repeated doses of the neurotoxin monosodium-glutamate (MSG). In the arcuate nucleus, the results showed a virtually complete loss of cell bodies containing immunoreactivity for growth hormone-releasing factor (GRF), galanin (GAL), dynorphin (DYN), enkephalin (ENK), corticotropin-like intermediate peptide (CLIP), neuropeptide Y (NPY), and neuropeptide K (NPK). Tyrosine hydroxylase(TH)-glutamic acid decarboxylase(GAD)-, neurotensin(NT)- and somatostatin(SOM)-immunoreactive (IR) cells were, however, always detected in the ventrally dislocated, dorsomedial division of the arcuate nucleus. In the median eminence, marked decreases in numbers of GAD-, NT-, GAL-, GRF-, DYN-, and ENK-IR fibers were observed. The numbers of TH-, SOM- and NPY-IR fibers were in contrast not or only affected to a very small extent, as revealed with the immunofluorescence technique. Biochemical analysis showed a tendency for MSG to reduce dopamine levels in the median eminence of female rats, whereas no effect was observed in male rats. Autoradiographic studies showed high to moderate NT binding sites, including strong binding over presumably dorsomedial dopamine cells. In MSG-treated rats, there was a marked reduction in GAL binding in the ventromedial nucleus. The findings implicate that most neurons in the ventrolateral and ventromedial arcuate nucleus are sensitive to the toxic effects of MSG, whereas a subpopulation of cells in the dorsomedial division of the arcuate nucleus, including dopamine neurons, are not susceptible to MSG-neurotoxicity. The results indicate, moreover that the very dense TH-IR fiber network in the median eminence predominantly arises from the dorsomedial TH-IR arcuate cells, whereas the GAD-, NT-, GAL-, GRF- and DYN-IR fibers in the median eminence to a large extent arise from the ventrolateral arcuate nucleus. Some ENK- and NPK-positive cells in the arcuate nucleus seem to project to the lateral palisade zone of the median eminence, but most of the ENK-IR fibers in the median eminence, located in the medial palisade zone, seem to primarily originate from an area(s) located outside the arcuate nucleus, presumably the paraventricular nucleus.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Neurotransmitters, neuropeptides and binding sites in the rat mediobasal hypothalamus: effects of monosodium glutamate (MSG) lesions. 256 86

1. Preliminary, general chemical characteristics of substances in artificial sea water (ASW) washed through stimulated body wall (SBW) and in hemolymph taken from noxiously stimulated animals (SHL) were consistent with those of classical neurotransmitters, amino acids, and small- to medium-sized peptides. 2. 5-Hydroxytryptamine (5HT) and acetylcholine (ACh), unlike SBW and SHL, caused relaxation when perfused into isolated body wall. FMRFamide produced a biphasic response--brief contraction followed by prolonged relaxation. 3. Small cardioactive peptide (SCPB) caused body wall contractions similar to those produced by SBW and SHL, except that SCPB contractions displayed more desensitization and were completely blocked by 30 mM CoCl2. SCPB and SBW contractions were synergistic. 4. Dopamine caused persistent body wall contractions similar to those of SBW and SHL. Dopamine contractions were reduced but not blocked by 30 mM CoCl2. Unlike SBW activity, dopamine activity was reduced by alkalinization. 5. Glutamate and taurine produced strong but usually short-lasting body wall contractions. Adenosine, octopamine, arginine vasotocin, and cholecystokinin (CCK-8) caused weak or variable contractions. Met-enkephalin and somatostatin caused no obvious body wall responses. 6. When superfused over the fully sheathed abdominal ganglion, FMRFamide, met-enkephalin, glutamate, aspartate, and taurine reduced the magnitude of the gill-withdrawal reflex elicited by siphon nerve stimulation. 7. Taken together with earlier results, these data suggest a preliminary framework for trauma signal pathways. It is proposed that stress hormones (perhaps including FMRFamide, SCPs, 5HT, and dopamine) are released into hemolymph from neuroendocrine cells. Effective amounts of active intracellular solutes such as amino acids may also be released by extensive cellular rupture. Various humoral signals produce slow effects that contribute to hemostasis, balling up, increased cardiac output, and reflex suppression.
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PMID:Humoral factors released during trauma of Aplysia body wall. II. Effects of possible mediators. 276 Feb 88

This study was conducted in order to compare the effects of microiontophoretically-applied morphine and met-enkephalin (met-ENK) on spontaneous and/or glutamate-evoked activity of single globus pallidus (GP) neurons in locally anesthetized, paralyzed rats. The predominant effect of both morphine and met-ENK was a depression of pallidal neuronal activity. While very few GP neurons were excited by morphine (2/89), a small population of neurons was excited by met-ENK (16/89). Both the inhibitory and excitatory responses produced by morphine and met-ENK could be attenuated by the microiontophoretic application of naloxone. It was also found that morphine and met-ENK did not affect all GP neurons in a similar manner. When applied to the same neurons, morphine elicited depression in 11 of 16 GP neurons which were excited by the application of met-ENK. In contrast, neither of two GP neurons excited by morphine in this study displayed inhibition upon application of met-ENK. Thus the microiontophoresis of morphine and met-ENK to single GP neurons has demonstrated that these two substances can produce opposite effects when applied to the same neurons and suggests that two functionally distinct types of opiate receptor may exist within rat GP, one which mediates the inhibitory effects of morphine and met-ENK, possibly the classical mu (mu) receptor, and one that is preferentially selective to met-ENK and which mediates the excitatory effects of opiates within this region, possibly the classical delta (delta) receptor.
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PMID:Effects of enkephalin and morphine on rat globus pallidus neurons. 285 17

The effect of microiontophoretically administered beta-endorphin on the activity of 62 cortical and hippocampal neurones was studied in acute experiments on 14 rats. The effectiveness of beta-endorphin was first of all verified in the isolated guinea pig ileum, the mouse was deferens and in a study if its analgetic and catatonic effect in rats. Beta-endorphin only mildly depressed the spontaneous activity of cortical neurones, but markedly inhibited the activity stimulated by the microiontophoretic administration of glutamate. In the hippocampus, beta-endorphin stimulated the activity of all the studied neurones when only low ejection currents were used and activation persisted for 1-4 min after terminating administration. With higher ejection currents, the discharge frequency rose enormously and not even GABA blocked this effect. The excitatory effect of beta-endorphin on the hippocampal neurones may possibly be the basis of the epileptogenic action of this substance.
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PMID:Changes in the activity of rat cortical and hippocampal neurones after the iontophoretic administration of beta-endorphin, glutamate and GABA. 286 71

Adrenocorticotropic hormone (ACTH)1-24, ACTH4-10, corticosterone (CS) or arginine vasopressin (AVP) was administered subcutaneously to one day-old chicks immediately after learning a single trial passive avoidance task. Chicks were pretreated with 2 mM KC1 or 4 mM monosodium glutamate 5 min before learning. With KC1 or monosodium glutamate alone, no evidence of memory was observed on retention tests carried out as early as 5 min and as late as 24 h postlearning. However, the addition of ACTH1-24, ACTH4-10 or AVP to KC1-pretreated animals yielded normal retention levels up till 10 min, 10 min and 20 min after learning, respectively. Similar results were obtained with ACTH1-24 and AVP given to glutamate-pretreated birds. CS had no effect on KC1- or glutamate-induced amnesia. The calcium channel blocker, lanthanum chloride, also inhibited the formation of short-term memory, with amnesia still present as late as 24 h following learning. ACTH1-24, but not CS or AVP, yielded normal retention levels until 10 min postlearning in the presence of lanthanum chloride. Thus ACTH1-24 and AVP can overcome KC1 or glutamate inhibition of STM formation but will not prevent subsequent amnesia. The mechanisms underlying this action of ACTH1-24 and AVP are different. The possibility that the effect of ACTH1-24 is related to the role of calcium in STM formation is explored.
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PMID:Effect of stress-related hormones on short term memory. 286 68

Neonatal mice, under fasting conditions, are susceptible to the development of lesions in the arcuate nucleus (AN) of the hypothalamus, with high doses of monosodium L-glutamate (MSG). Feeding of nutrients (e.g., sugars and L-amino acids) has been shown to have a protective effect against the development of these lesions. The purpose of these studies was to elucidate the mechanism of this protective effect. Histopathologic examination of lesions of the AN demonstrated that feeding of weaning mice before subcutaneous administration of toxic doses of MSG suppressed the development of these lesions, as compared to fasted controls. Similarly, the number of necrotic cells in the AN of neonates administered toxic doses of MSG subcutaneously was reduced when D-glucose and L-arginine were administered orally. Atropine obliterated the protective effect of D-glucose. Pretreatments consisting of gastric inhibitory polypeptide (GIP) + oral D-glucose had a protective effect of higher potency than GIP alone. Pretreatments with insulin, anorexigenic peptide (pyroGlu-His-Gly), cholecystokinin, glucagon, bombesin, and substance P (in decreasing order of effectiveness) demonstrated a protective effect against the AN lesion in neonates, whereas somatostatin and beta-endorphin had no effect. Results suggest that the protective effect of nutrients may in part be due to the stimulation of peptide hormone release during the postabsorptive phase. It is postulated that the effect of entero-pancreatic hormone, especially insulin, is to enhance the tolerance of AN neurons of neonatal mice to the toxic dose of L-glutamate.
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PMID:Mealing and related hormone release suppress hypothalamic lesions of neonatal mice by L-glutamate. 288 96

Bilateral removal of the fronto-parietal cortex of the rat resulted in decreased spontaneous multiple-unit activity recorded in the striatum of freely-moving rats. Cortical ablations changed the neuronal response in the striatum to systemic administration of dexamphetamine (2.5 mg/kg i.p.) from excitation in control animals (88%) to inhibition in ablated animals (61%). Furthermore, catalepsy, induced by haloperidol, but not by morphine, was markedly attenuated after cortical ablation. These changes were accompanied by a 23% decrease in the specific binding of [3H]spiperone in the striatum. The binding of [3H]met-enkephalin was unaffected by the cortical lesions. Levels of glutamate in the striatum decreased from 8.88 +/- 0.5 mumols/g in control animals to 6.93 +/- 0.37 mumols/g after bilateral cortical ablation. On the other hand, cortical ablations did not alter the content of either the gamma-aminobutyric acid or glutamine of the striatum. It is concluded that the excitatory response, observed in striatal neurons in freely-moving animals, is dependent upon an intact cerebral cortex and requires intact cortico-striatal afferents. The results further suggest that neurons in the striatum are under the tonic influence of glutamate, released from cortico-striatal afferents. Lastly, some dopamine D2 binding sites in the striatum are located on cortico-striatal afferent terminals and blockade of these striatal D2 sites may be involved in the induction of catalepsy by neuroleptic drugs.
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PMID:The effects of cortical ablation on multiple unit activity in the striatum following dexamphetamine. 288 62

The role of trigeminal nucleus caudalis (Vc) in control of the autonomic and endocrine correlates of nociception was assessed in chloralose-anesthetized cats. Microinjections of the neuroexcitatory agent, L-glutamate (0.5 M), were directed at the marginal layers, at the central magnocellular portion, and at the deep magnocellular portion of Vc. Changes in the plasma concentration of adrenocorticotropin (ACTH), in mean arterial pressure, and in heart rate were examined. Glutamate excitation of neurons within the marginal layers of Vc evoked a significant (+143 +/- 52 pg/ml, P less than 0.01) increase in plasma ACTH during the 10 min postinjection sampling period. Glutamate injections into the deep magnocellular portion of Vc also increased plasma ACTH (+97 +/- 28 pg/ml, P less than 0.05), whereas activation of neurons in the central magnocellular portion of Vc had no consistent effect on plasma ACTH (-25 +/- 29 pg/ml, P greater than 0.10). Arterial pressure increased transiently after glutamate injections into the marginal layers or central magnocellular portion of Vc, whereas injections into the deep magnocellular portion of Vc did not affect arterial pressure. Heart rate increased transiently regardless of the laminar site of injection within Vc. These data indicate that activation of neurons in laminar regions of Vc that process nociceptive information cause an increase in plasma ACTH, whereas activation of neurons in laminae of Vc that process mainly non-nociceptive input have no significant influence on plasma ACTH.
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PMID:Glutamate activation of neurons within trigeminal nucleus caudalis increases adrenocorticotropin in the cat. 290 7

Neonatal administration of monosodium glutamate (MSG) produces necrosis of circumventricular structures, including perikarya in the medial-basal hypothalamus that contain beta-endorphin (BEND) and met-enkephalin. Since neonatal MSG treatment alters morphine analgesia, the present study examined neonatal MSG effects upon opioid analgesia observed following either BEND or d-ala d-leu enkephalin (DADL). Rats treated with either MSG or vehicle over the first ten post-natal days, were surgically prepared with a lateral ventricle cannula at 100 days of age. Respective groups received central injections of either BEND (0, 0.1, 0.5 or 1.0 microgram) or DADL (0, 4, 20 or 40 micrograms), and jump thresholds were assessed 15, 30, 45 and 60 min thereafter. Following testing, selected MSG-treated and control animals were prepared for BEND immunocytochemistry. While the magnitude, duration and sensitivity of BEND analgesia on the jump test failed to differ between groups, MSG-treated rats displayed a 10-fold leftward shift in sensitivity and a 200-300% increase in the magnitude of DADL analgesia. Immunocytochemical analysis indicated that MSG treatment depleted perikarya in the medial-basal hypothalamus, periventricular thalamic fibers and periaqueductal gray terminal fields that contained BEND. The differential effects of MSG treatment upon opiate and opioid analgesia are discussed in terms of possible alterations in opiate receptor subpopulations.
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PMID:Differential alterations in opioid analgesia following neonatal monosodium glutamate treatment. 293 2

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