Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: 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)

The effect of hypoxic hypoxia (HH) and carbon monoxide hypoxia (COH) on adrenal medullary (MQ) and cortical (CQ) blood flow (radiolabeled microsphere technique) was studied in pentobarbital sodium-anesthetized, mechanically ventilated dogs. Animals were exposed to 60 min of hypoxia (arterial O2 content 8 vol%) induced by adding either nitrogen (HH, n = 6) or carbon monoxide (COH, n = 6) to the inspired gas. Whole adrenal Q and CQ increased by 70 and 50%, respectively, with HH but were unchanged during COH. MQ, however, increased threefold during both HH and COH. HH and COH both increased arterial levels of epinephrine, corticosteroids, and adrenocorticotropic hormone (ACTH). To determine whether the increase in CQ during HH was because of HH-induced increases in mean arterial blood pressure (MAP, approximately 20 mmHg), an additional group of animals (n = 6) was exposed to HH but had MAP maintained at control levels using a pressurized-bottle system. MAP control did not alter the CQ response to HH. We conclude that MQ appears to be associated with medullary secretory activity during hypoxia and that HH and COH stimulate adrenal medullary secretion equally. In contrast, CQ increases only with HH, despite similar increases in ACTH and corticosteroid levels during HH and COH, suggesting that an alternative mechanism is responsible for increased cortical blood flow during HH.
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PMID:Regional adrenal blood flow during hypoxia in anesthetized, ventilated dogs. 253 47

The effect of intracerebroventricular injections of arginine vasopressin (AVP) on burn shock in the rat and its possible mechanism were explored in this study. AVP was administered intraventricularly at 30 min intervals (50 ng) in the burned rats. The arterial pressure and electrocardiogram (ECG) were recorded with a multipurpose polygraph before and after burn. Compared with the control, the MAP of the rats in the AVP group was elevated at the initial stage and fell dramatically at the late stage of burn shock with a higher mortality. The ECG of the rats in the AVP group also displayed earlier changes such as elevation of S-T segment, inversion of T wave, and ventricular fibrillation. These findings suggest an unfavorable role of AVP in burn shock. The plasma, hypothalamic, and anterior and posterior pituitary levels of beta-endorphin 3 hr after burn were measured by radioimmunoassay. The increased level of beta-endorphin in the plasma after AVP treatment indicates the possible involvement of beta-endorphin in the deteriorating effect of AVP on burn shock.
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PMID:Possible involvement of beta-endorphin in the deteriorating effect of arginine vasopressin on burn shock in rats. 259 Oct 29

The present study evaluated a protocol for drawing large volumes of blood over an acute time frame in conscious cannulated rats with blood from cannulated donor rats simultaneously infused to maintain isovolemia. During time control (n = 6), three successive 1.5-ml blood samples were drawn at 10-min intervals with equal volumes of donor blood infused simultaneously. One milliliter of blood was drawn quickly and saved for analysis followed by an additional 3 ml of blood withdrawal to total a 15-ml/kg hemorrhage. Two subsequent 1.5-ml samples were replaced with autologous (hemorrhage) blood. During hypoxia inspired O2 was decreased to 10% after the first sample-transfusion. The sampling-transfusion protocol (time control) had no effect on blood pressure (MAP), hematocrit (Hct), blood gases, renin, or adrenocorticotropic hormone (ACTH). Hemorrhage resulted in a significant decrease in MAP, Hct, base excess, and arterial PCO2 and an increase in arterial PO2, renin activity, and ACTH. Ten percent O2 resulted in significant hypoxemia, respiratory alkalosis, and a small degree of hypotension at the 20-min sample with no change in renin and a moderate increase in ACTH. The consistency of the results with previous studies confirms the utility and efficiency of large sample-transfusion protocols for the study of blood gas and endocrine dynamics in conscious rats.
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PMID:Evaluation of a blood sample-transfusion protocol in rats: blood gases, renin, and ACTH. 284 65

The endogenous opiate beta-endorphin is released concomitantly with adrenocorticotropin from the pituitary during stress. In the present study we investigated the possible involvement of opiate receptors in the cardiovascular depression associated with hypovolemic shock in the nonhuman primate. Changes in circulating levels in beta-endorphin were monitored during hemorrhagic shock in 18 female baboons. Plasma levels of beta-endorphin increased significantly during hemorrhagic shock and were significantly correlated with a decrease in cardiac output (P less than 0.05). Single bolus administration of the opiate receptor antagonist naloxone (2 or 5 mg/kg) produced a transient but significant improvement in cardiac output (P less than 0.05) and mean arterial pressure (P less than 0.05). Hemodynamic improvement was maintained with a constant infusion of naloxone. Opiate receptor blockade with the longer acting antagonist naltrexone (2 or 5 mg/kg) significantly increased mean arterial pressure (MAP; P less than 0.05), and CO (P less than 0.05), and decreased heart rate. Our results suggest that the baboon is an excellent model for the study of hemorrhagic shock and provide further evidence for endogenous opiate involvement in the cardiovascular pathophysiology of hemorrhagic shock.
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PMID:Endorphins in primate hemorrhagic shock: beneficial action of opiate antagonists. 293 29

Chemical antagonists were used to assess the role of beta-endorphin and arginine-vasopressin (AVP) in canine endotoxin shock. Fifteen awake dogs were given Escherichia coli endotoxin IV. Within 5 min, CO decreased to 28%, LV dP/dt to 46%, and MAP to 52% baseline. Fifteen minutes after endotoxin, five dogs each received naloxone, AVP antagonist, or no treatment. Control (untreated) animals exhibited persistent cardiovascular depression, with CO 49%, LV dP/dt 69%, and MAP 91% of baseline after 45 min. Naloxone improved CO to 69%, LV dP/dt to 94%, and MAP to 91% by 30 min after treatment. AVP blockade improved CO to 105%, LV dP/dt to 107%, and MAP to 95% of baseline by 30 min after treatment, and caused significant tachycardia. Plasma cortisol and AVP increased markedly in all groups after endotoxin administration. AVP antagonist treatment increased mean survival from 1.4 to 4 days. These data suggest that abnormally elevated AVP contributes to cardiovascular depression in canine endotoxin shock and that AVP blockade is therapeutic in the animal model studied.
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PMID:The role of endorphins and vasopressin in canine endotoxin shock. 294 95

Hypothalamic and pituitary beta-endorphin (B-EP) concentrations are modified by ovariectomy and estrogen treatments, supporting a direct interaction between this peptidergic system and gonadal steroids. Because the use of progestins is becoming even more diffuse in clinical practice, we evaluated the effect of progesterone and of the synthetic progestins medroxyprogesterone acetate (MPA), norethisterone acetate (NET) and desogestrel on the concentration of B-EP in the medial-basal hypothalamus and the anterior and neurointermediate pituitary lobes in ovariectomized rats (OVX), treated or untreated with estradiol benzoate (EB). B-EP concentrations were significantly increased by desogestrel in the anterior lobe and by progesterone, desogestrel and medroxyprogesterone acetate in the neurointermediate lobe. Progesterone and progestins significantly reduced B-EP increase induced by estradiol benzoate in the anterior lobe. Estradiol benzoate treatment did not modify the effect of progesterone and desogestrel on B-EP in the neuro-intermediate pituitary lobe. Norethisterone acetate and progesterone increased B-EP concentrations in the medial-basal hypothalamus, while the other steroids were inactive. In contrast, in the hypothalamus all progestins attenuated the increase of B-EP induced by estradiol benzoate (p less than 0.01). These data indicate that progesterone and progestins modulate the hypothalamic and pituitary B-EP concentrations in concert with estrogens. The capacity of progestins to modify the hypothalamic contents of B-EP may represent one of the mechanisms of action of these steroids in influencing brain function.
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PMID:Progesterone and progestins modulate beta-endorphin concentrations in the hypothalamus and in the pituitary of castrated female rats. 297 69

The effects of the ovarian steroids, oestradiol benzoate (EB), and progesterone (P) on the cells of pars intermedia (PI) from chronically ovariectomized rats (CHR-OVX) were analyzed by qualitative and quantitative electron microscopy (EM) at different intervals after steroid injection. The PI cells of CHR-OVX are rich in secretory granules but poor in organelles related to hormonal synthesis. Twenty-four h after EB administration the cells exhibited cytological features indicative of an increased synthetic activity. These included hypertrophy of rough endoplasmic reticulum, cisternae, a moderately developed Golgi complex, and newly formed granules. These features were also observed in PI cells 48 h after EB administration. Thirty-two and 56 h after the treatment, the PI cells showed signs of both increased synthetic and secretory activity. Thus, it was possible to observe a well-developed rough endoplasmic reticulum, and Golgi apparatus, numerous electron-lucent vesicles, and secretory granules in contact with the cell membrane. However, no exocytotic figures were observed. Progesterone administration resulted in considerable modifications of the ultrastructural features of PI cells also indicative of increased synthetic and secretory activity. The greatest modifications were observed in the mornings with changes that were 12 h out of phase with respect to those observed with EB. Quantitative estimations of the variation in the content of secretory granules of PI cells fully confirmed the qualitative observations described above. The serum alpha-MSH concentrations in ovariectomized rats was found to be increased 24 h after administration of a single dose of EB and thereafter serum MSH exhibited high levels in the afternoon, whereas the values in the morning were lower.
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PMID:Modifications of pars intermedia cells of ovariectomized rats by oestrogen and progesterone. 394 2

Sixteen anesthetized foxhounds were instrumented for hemodynamic measurements. The adrenolumbar vein was cannulated, and hemorrhagic hypotension (MAP = 40 mmHg for 3h) was induced by bleeding. The plasma levels of beta-endorphin (beta-END), methionine-enkephalin (M-ENK), and leucine-enkephalin (L-ENK) were determined in systemic and adrenal venous blood by specific RIA. Five dogs received an i.v. bolus of naloxone (2 mg/kg) and a subsequent naloxone infusion of 2 mg/kg per hour 1 h after onset of hypovolemia. Eleven dogs served as controls and received equivalent volumes (1 ml/kg per hour) of saline. Hemorrhage resulted in a sharp increase in plasma concentrations of all measured opioid peptides, particularly of M-ENK (26-fold) and L-ENK (24-fold) in the adrenal effluent. Systemic beta-END levels remained 3-fold increased, whereas the ENK release decreased spontaneously. Naloxone treatment inhibited the spontaneous fall of adrenal ENK release during the hypotensive phase; the ENK values remained elevated 20- to 35-fold. Reinfusion of the autologous blood resulted in a normalization of the concentrations of all peptides in both groups. These data demonstrate that hemorrhagic hypotension will cause stimulation of release of endogenous opioid peptides. The high levels of ENK in the adrenal effluent indicate that the adrenal gland is the main source of these peptides in the circulation. In addition to beta-END, the ENK have therefore to be considered as possible factors perpetuating circulatory shock.
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PMID:Release of opioid peptides in canine hemorrhagic hypotension: effects of naloxone. 608 83

Sexually experienced male rats were used to test the attractiveness of preputial gland odours of female rats. The male rats showed a clear preference for the preputial gland odours of hypophysectomized females given oestradiol benzoate (OB) for 3 or 8 days to those of control rats. Progesterone treatment had no effect on the attractiveness of the preputial gland odours of OB-treated hypophysectomized female rats. Administration of alpha-MSH for either 3 or 8 days, on the other hand, increased the attractiveness to male rats of preputial gland odours of OB-treated hypophysectomized females and the presence of progesterone produced no further change. When administered alone alpha-MSH had no effect on the attractiveness of the preputial gland odours. Other pituitary hormones, such as ACTH and prolactin, had no effect on the attractiveness of preputial gland odours of OB-treated hypophysectomized rats when administered for 3 days. An increase in preputial gland size was only seen when OB, progesterone and alpha-MSH were administered together. It would appear that no relationship exists between the size of the preputial glands and their ability to attract male rats. It is concluded that, while alpha-MSH and progesterone may be important in controlling growth of the preputial glands, an interaction between alpha-MSH and oestrogen is more important for regulating the production of sex attractants by the preputial glands.
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PMID:Effect of alpha-melanocyte-stimulating hormone and ovarian steroids on preputial gland function in the female rat. 626 52

Human fetal adrenal (HFA) tissue was maintained in organ culture to evaluate the biosynthesis of prostaglandins and hormonal regulation of prostaglandin formation by this tissue. The HFA tissue secreted substantial amounts of prostaglandin E(2), prostaglandin F(2alpha), 13,14-dihydro-15-ketoprostaglandin F(2alpha), 6-ketoprostaglandin F(1alpha), and thromboxane B(2); secretion of prostaglandin D(2) could not be demonstrated. Prostaglandin biosynthesis in HFA tissue was inhibited in a time-dependent manner by corticotropin (ACTH; 0.4 muM); by the fourth day of culture, the extent of inhibition of biosynthesis of each prostaglandin was 60-90%. Progesterone (1 muM), cortisol (1 muM), and dexamethasone (1 muM) inhibited prostaglandin biosynthesis whereas estradiol (1 muM) did not. Of the compounds tested for inhibitory activity, dexamethasone was the most potent. An inhibitor of 11beta-hydroxylase activity (metyrapone; 0.1 mM) effectively eliminated the inhibition of prostaglandin biosynthesis caused by corticotropin and progesterone. Metyrapone treatment alone caused a 3-fold increase in prostaglandin biosynthesis by fetal adrenal tissues. Similar stimulatory effects resulted from treatment with inhibitors of (i) 3beta-hydroxysteroid dehydrogenase (cyanoketone; 15 muM), (ii) steroid 17alpha-hydroxylase (SU 10603; 19 muM), and (iii) cholesterol side-chain cleavage (aminoglutethimide; 1 mM). Inhibition of prostaglandin biosynthesis by dexamethasone in the presence or absence of metyrapone was concentration dependent and 50% inhibition could be demonstrated at 1 nM. A competitive inhibitor of the binding of glucocorticosteroids to cytoplasmic receptors (cortisol 21-mesylate; 1 muM) significantly reduced the inhibition of prostaglandin biosynthesis effected by dexamethasone (10 nM). These findings suggest that prostaglandin biosynthesis in the HFA gland is regulated by endogenously synthesized glucocorticosteroids, the actions of which are mediated by a glucocorticosteroid receptor. Such glucocorticosteroids induce the synthesis of a substance that inhibits prostaglandin biosynthesis.
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PMID:Prostaglandin biosynthesis in the human fetal adrenal gland: regulation by glucocorticosteroids. 629 39


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