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)

Cold stress stimulates the release of both ACTH and TSH from the pituitary. More striking changes in ACTH content have been seen in the intermediate lobe after cold stress. Therefore, this study was designed to test responses of individual anterior lobe corticotropes to cold exposure. Male rats were exposed to either 30 min of cold (+3-5 C), 30 min of a novel, temperate environment (+24 C) or were unstressed (+24 C). Pituitaries were fixed and embedded in preparation for immunolabeling for ACTH or TSH-beta at the light (semithin sections) and electron microscopic levels. The semithin sections were used to measure areas of corticotropes and thyrotropes with Bioquant image analysis equipment. Separate groups of pituitaries were dissociated and the cells were cultured for 2 or 15 h. Then the cells were stimulated for 5-10 min with biotinylated analogs of corticotropin-releasing hormone (bio-CRH) or arginine vasopressin (bio-AVP) to detect the target cells cytochemically. A third group of dissociated cells were fixed for immunolabeling for ACTH, 16K fragment of pro-opiomelanocortin, beta-endorphin, or TSH-beta. Cold exposure resulted in a 1-4-fold increase in the levels of serum ACTH over that of unstressed rats. This was correlated with a 40% increase in the percentage of cells that contained 16K fragment and a 30-40% increase in percentages of cells storing ACTH or beta-endorphin. Cold stress also increased the percentage of cells that bound bio-CRH or bio-AVP by 45%. Analyses of semithin sections showed that areas of corticotropes increased by 21% following cold stress. The number of rows of immunolabeled (ACTH) secretion granules also increased in corticotropes from cold-stressed rats. Exposure to a novel environment for 30 min resulted in no significant increase in serum ACTH over that of unstressed rats. There was, however, a 20% increase in percentages of cells that stored 16K fragment, beta-endorphin, or target cells that bound bio-CRH. However, the corticotropes were not significantly larger. Many of the cells exhibited reduced numbers of immunolabeled secretory granules. Other corticotropes resembled those from cold-stressed rats. When TSH cells were studied, their percentages increased from 8 +/- 3% to 15.8 +/- 4% and their areas increased by 22% following exposure to cold. After exposure to a novel environment, percentages of cells that stored TSH-beta increased to 11 +/- 2%, however, no changes in areas of TSH cells were measured. These studies demonstrated that the anterior lobe corticotrope is clearly activated by exposure to both cold and novel environment.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Cytochemical studies of responses of corticotropes and thyrotropes to cold and novel environment stress. 216 13

This study evaluated the effect of ACTH and several ACTH fragments on the development of gastric glandular lesions induced by cold-restraint stress in rats. Intracerebroventricular administration of ACTH1-39 dose-dependently (0.1-10 micrograms) inhibited stress gastric lesion formation. Studies with smaller molecular weight forms of ACTH (in a dose equimolar to 10 micrograms of ACTH1-39) revealed that ACTH1-13 and ACTH1-10 were also protective. The ACTH fragments ACTH5-10, ACTH34-39 and ACTH1-17 were without effect. Immunoneutralization of endogenous brain ACTH1-39 significantly increased stress gastric lesion severity. Antisera raised against synthetic somatostatin, gonadotropin-releasing hormone, and L-enkephalin were ineffective. These results with ACTH coupled with our previous demonstration of a protective effect of beta-endorphin suggest that specific brain pro-opiomelanocortin gene products modulate gastric mucosal integrity in response to stress.
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PMID:Brain ACTH prevents stress gastric lesions in rats. 217 16

The ability of hormones to bind to their functional receptors on turtle (Pseudemys scripta) endocrine target tissues in the cold was tested by treating tissues with secretagogues at low temperatures (5-15 degrees) and then following subsequent target stimulation in the absence of secretagogue at a warm temperature (28 degrees). Administration of thyrotropin-releasing hormone (TRH), corticotropin-releasing hormone, and growth hormone-releasing hormone to pituitaries at low temperatures (20 degrees or below) suppressed responses in growth hormone (GH) and thyrotropin (TSH) secretion and there was little or no response in pituitaries subsequent to warming. In contrast, gonadotropin-releasing hormone treatment of pituitaries, TSH treatment of thyroid glands, and gonadotropin (FSH and LH) treatment of testes in the cold (down to 5 degrees) was followed by a large response in the target glands (secretion of LH, thyroxine, and testosterone (T), respectively) following warming. Additional studies with FSH and LH showed that these hormones can bind to testes rapidly (within 5 min) at low temperatures where no acute response is observed, although the dose sensitivity and the extent of this priming in the cold are less than at warm temperatures. Thus, postreceptor events may be more important than binding per se for temperature effects on hormone responses of tissues, but even this component of cell function varies among tissues. The effects of a receptor-independent secretagogue (tetraethylammonium chloride), which causes cell depolarization by blocking K+ efflux, were also blocked at low temperatures in thyrotropes and somatotropes but not in gonadotropes. Rapid depressions in TSH and GH secretions following cooling of TRH-stimulated pituitaries and of T secretion in LH-stimulated testes provide further evidence for cold sensitivity of postreceptor processes in these tissues.
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PMID:The role of hormone binding in the cold suppression of hormone stimulation of the pituitary, thyroid, and testis of the turtle. 228 80

Cloudman S91 mouse melanoma cells express both external (plasma membrane) and internal binding sites for MSH. Using 125I-beta melanotropin (beta-MSH) as a probe, we report here an extensive series of studies on the biological relevance of these internal sites. Cells were swollen in a hypotonic buffer and lysed, and a particulate fraction was prepared by high-speed centrifugation. This fraction was incubated with 125I-beta-MSH with or without excess nonradioactive beta-MSH in the cold for 2 hours. The material was then layered onto a step-wise sucrose gradient (8-80%) and centrifuged (156,000g, 60 min); fractions were collected and counted in a gamma counter or assayed for various enzymatic activities. The following points were established: 1) Specific binding sites for MSH were observed sedimenting at an average density of 50% sucrose in amelanotic cells and at higher densities in melanotic cells. 2) These sites were similar in density to those observed when intact cells were labeled externally with 125I-beta-MSH and then warmed to promote internalization of the hormone. 3) Most of the internal binding sites were not as dense as fully melanized melanosomes. 4) In control experiments, the MSH binding sites were not found in cultured hepatoma cells. 5) Variant melanoma cells, which differed from the wild-type in their responses to MSH, had reduced expression of internal binding sites even though their ability to bind MSH to the outer cell surface appeared normal. (MSH-induced responses included changes in tyrosinase, dopa oxidase, and dopachrome conversion factor activities, melanization, proliferation, and morphology.) 6) Isobutylmethylxanthine, which enhanced cellular responsiveness to MSH, also enhanced expression of internal binding sites. The results indicate that expression of internal binding sites for MSH is an important criterion for cellular responsiveness to the hormone.
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PMID:Internal binding sites for MSH: analyses in wild-type and variant Cloudman melanoma cells. 229 15

A seventeen year old boy presented with destructive arthropathy of the lower limbs and discovertebral spaces. Past history yielded recurrent episodes of indolent fractures and progressive knee and ankle deterioration. The patient denied any pain sensation in the past and at examination. Other neurological tests were normal. Beta-endorphin level was elevated in the CSF. Response to the cold pressor test was modified after injection of Naloxone. The nosology and physiopathology of congenital insensitivity to pain are discussed.
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PMID:[A case of congenital insensitivity to pain with destructive arthropathies of the limbs and spine. Discussion on nosology and physiopathology of the disease]. 242 25

Effects of acute cold exposure (10 degrees C for 60 min) on the concentrations of adrenocorticotropin (ACTH) and zinc in plasma were investigated in seven healthy male students. There were no significant changes in total zinc, albumin-bound zinc, and alpha 2-macroglobulin-bound zinc concentrations throughout the experimental period. On the other hand, ACTH concentration increased markedly during cold exposure. In addition, a statistically significant inverse relationship existed between the changes in ACTH and albumin-bound zinc values during the experiment. These results suggest that acute cold exposure produces elevated plasma ACTH levels, with resulting zinc redistribution in the human body.
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PMID:Effect of acute cold exposure on ACTH and zinc concentrations in human plasma. 244 12

To establish whether thyroid hormone modifies the heart rate directly or through an action on other neuroendocrine modulators, the authors have examined several animals models differing in the plasma levels of such compounds. Induction of the hypothyroid state in rats produced a slow onset of bradycardia, which may be removed by a prolonged triiodothyronine treatment. The involvement of TSH was excluded as, by comparing thyroidectomized, hypophysectomized and cold exposed rats, the heart rate was found to vary according to the thyroid levels and not to the TSH levels. Moreover growth hormone, corticotropin and gonadotropins do not influence the heart rate, as the bradycardia induced by hypophysectomy was fully removed by triiodothyronine treatment. The lack of influence by ACTH and GnH was confirmed by treatment of thyroidectomized rats with corticosteroids or testosterone, respectively. Finally, thyroid hormone did not act on the heart rate by changing the norepinephrine output at the sympathetic nerve endings in the heart. In fact, thyroidectomy produced a more intense bradycardia than sympathectomy, and such bradycardia was equally removed by triiodothyronine treatment in thyroidectomized rats and in thyroidectomized and then sympathectomized ones. The authors suggest that the direct effect of the thyroid hormone on cardiac chronotropism is due to an early enhancement of beta-adrenoceptors, followed by a late modification of the electrophysiological properties of the myocardium.
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PMID:The direct effect of the thyroid hormone on cardiac chronotropism. 248 2

Two trials were conducted with turkey poults to examine the ontogeny of daily rhythmicity of plasma corticosterone (CS), and to determine the plasma CS response to adrenocorticotropic hormone (ACTH) injections and temperature stress at different times during a light-dark cycle. In Trial 1, CS levels were determined at 3-h intervals over a 24-h period in 3, 10, and 14-day-old tom and hen poults maintained on a 12 h light: 12 h dark (12L:12D) light-dark cycle. Plasma CS levels of tom and hen poults were similar. A robust daily rhythm in plasma CS occurred by 10 days of age, with maximal levels of CS occurring during the scotophase. In Trial 2, daily variation in plasma CS sensitivity to cold treatment or ACTH in 2-wk-old toms was examined. Tom poults were exposed to cold water immersion (5 C for 1 min), porcine ACTH injection (1 IU/kg), or saline injection at 1100 h in midphotophase and at 2300 h in midscotophase. Treatments significantly increased plasma CS in both the photophase and scotophase, with the levels being significantly higher in the scotophase. At midphotophase cold or ACTH treatment induced respectively, a 489 and 546% increase in plasma CS above that of controls. During midscotophase, 746 and 695% increases in CS above levels for controls were induced by cold stress or ACTH, respectively. Differences between percent changes for times of day were not significantly different.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Ontogeny of daily rhythmicity in plasma corticosterone and variation in sensitivity of the corticosterone response in turkey poults. 253 91

We have recently reported that chronically repeated restraint stress results in improved cold tolerance in rats via an increased activity of nonshivering thermogenesis, a characteristic metabolic change observed during cold adaptation, suggesting the presence of cross-adaptation between cold and stress. It is well established that the hypothalamic-pituitary-adrenal (HPA) axis is activated in various stress responses. In the present study, therefore, we examined whether cold adaptation would alter the adrenocorticotropic hormone (ACTH)-releasing state in vivo using freely moving, conscious rats chronically implanted with intra-atrial cannulas. There was no difference in the basal levels of plasma ACTH between warm control and cold-adapted rats. On the other hand, the ACTH response to the intravenous administration of corticotropin-releasing factor (CRF; 2 micrograms/animal) was significantly elevated in cold-adapted rats. However, the injection of 10 micrograms of CRF, which was considered as a dose to elicit the maximal ACTH response, resulted in similar ACTH release patterns between the two groups. These changes in the responsiveness of ACTH secretion have been observed in rats chronically exposed to stressful conditions. The results demonstrated in the present study, therefore, provide further evidence for our hypothesis that there may exist cross-adaptation between cold and nonthermal stress.
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PMID:Increased ACTH response to corticotropin-releasing factor in cold-adapted rats in vivo. 255 Nov 75

To determine whether prenatal exposure to ethanol alters the response of the beta-endorphin (beta-EP) system to stress, the effect of two types of stressful stimuli, ether and cold, was examined in the offspring of rats which during pregnancy were: (a) fed with an ethanol-containing diet; (b) pair-fed with an isocaloric sucrose diet; and (c) fed ad libitum with standard lab chow (basic control group). The effect of stress on the content of beta-EP in the serum, pituitary gland and hypothalamus, as well as on the serum corticosterone and hypothalamic corticotropin-releasing factor (CRF) content was examined. Pups prenatally exposed to ethanol had significantly higher serum beta-EP levels on Day 1 and higher serum corticosterone levels on Days 1-3 when compared to their pair-fed or basic controls. On all days tested pituitary beta-EP content was lower in the offspring of the ethanol-treated rats than in the control groups. There was no difference in the total hypothalamic beta-EP content between the three treatment groups; however, during the first 10 days of life a higher concentration (ng/mg protein) of beta-EP was observed in the hypothalami of the ethanol and the pair-fed group when compared to the basic control pups. Hypothalamic CRF levels, though significantly lower in the pups exposed to ethanol in utero than in the control groups on Day 3, increased significantly in the ethanol group between Days 14 and 22, while no significant change was observed during this period in either of the control groups.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Prenatal exposure to ethanol alters the ontogeny of the beta-endorphin response to stress. 255 63

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