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)

Adrenodoxin is an iron-sulfur protein which functions as a carrier of reducing equivalents in steroid hydroxylation reactions catalyzed by specific cytochromes P-450 in steroidogenic tissues such as adrenal cortex. Purified bovine adrenocortical adrenodoxin was shown to be selectively phosphorylated upon incubation with purified cAMP-dependent protein kinase, whereas other protein kinases were ineffective. The phosphorylation reaction was completed within 45 min at 30 degrees C and resulted in the optimal incorporation of 1 mol phosphate/mol adrenodoxin. Apoadrenodoxin, lacking the iron-sulfur cluster, was also phosphorylated under similar conditions. An apparent Km of 55 microM with a Vmax of 0.3 pmol 32P incorporated min-1 mg adrenodoxin-1 was calculated. Phosphorylation resulted in a striking change in several molecular properties of adrenodoxin, such as electrophoretic behavior and hydroxyapatite affinity, thus providing the possibility of clearly separating phosphorylated from unphosphorylated adrenodoxin. In addition, phosphoadrenodoxin became refractory to mild trypsin degradation, whereas this was not the case with apoadrenodoxin. The phosphorylated site of adrenodoxin was identified as a serine residue; study of peptide products resulting from CNBr and proteolytic cleavages of phosphoadrenodoxin suggested that Ser-88 was the target of the phosphorylation reaction. The influence of phosphorylation upon adrenodoxin activity was examined using cholesterol side-chain cleavage and 11 beta-hydroxylase (11 beta) systems, reconstituted from purified components. Phosphorylation of adrenodoxin resulted in an average twofold decrease in its Km values for the two specific cytochromes P-450 involved. This effect was paralleled by a positive relationship between the degree of adrenodoxin phosphorylation and its ability to support the overall activity of reconstituted side-chain cleavage and 11 beta-hydroxylase systems. Although it remains to be examined whether adrenodoxin is phosphorylated in the intact cell, the present observations suggest that it represents a potential target in the hormonal regulation of the adrenocortical differentiated functions, especially by stimulatory agents acting through a cyclic-AMP-dependent mechanism, such as adrenocorticotropin.
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PMID:Phosphorylation of bovine adrenodoxin. Structural study and enzymatic activity. 282 99

Serious contradictions exist at present in our understanding of the physiological role of glucocorticoids on the synthesis of the metal-binding protein, metallothionein (MT). In addressing this problem, we have examined in vivo the role of glucocorticoids on liver and serum MT levels in the rat under a spectrum of experimental conditions. The experiments confirm that stress has a major positive effect on hepatic MT levels. It was found that adrenocorticotropic hormone (ACTH) administration has an inhibitory effect on hepatic MT levels in response to restraint stress and that adrenalectomy (ADX) leads to an increase in basal MT levels and in MT levels in response to acute and chronic immobilization stress. Similar results followed treatment with the glucocorticoid receptor blocker, RU 486. The effect of ADX was abolished by corticosterone replacement. The relations found among hepatic MT, serum MT, and glucocorticoid concentrations indicate that in some circumstances glucocorticoids have a permissive role in mobilizing MT from tissues to serum and that in physiological conditions corticosterone has an inhibitory role in the maintenance of hepatic MT levels.
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PMID:Physiological role of glucocorticoids on rat serum and liver metallothionein in basal and stress conditions. 282 14

To investigate the involvement of different brain sites in the mediation of glucocorticoid feedback action, we implanted dexamethasone or corticosterone containing glass capillaries into the paraventricular and arcuate nuclei of the hypothalamus, into the lateral septum, the dorsal and ventral hippocampus, amygdala and the cerebral cortex of adrenalectomized male rats, and compared the plasma adrenocorticotropin (ACTH) values to those of the sham implanted controls. The ACTH hypersecretion of adrenalectomized (ADX), sham implanted rats (670 fmol/ml) was reduced significantly by dexamethasone implants placed into the paraventricular nucleus (9.97 fmol/ml), arcuate nucleus (20.54 fmol/ml) or lateral septum (44.15 fmol/ml). Corticosterone was effective only when placed into the dorsal hippocampus, but normal ACTH levels were not restored (219.67 fmol/ml). All other implants at other sites had no effect on ACTH secretion. Our results suggest that corticosterone and dexamethasone possess different feedback potencies and act at different sites in the brain to normalize the ADX-induced ACTH secretion.
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PMID:Corticosterone and dexamethasone act at different brain sites to inhibit adrenalectomy-induced adrenocorticotropin hypersecretion. 285 89

The aim of the present study was to determine the effect of alpha-MSH on serum LH in order to obtain some clues about the possible, mechanism by which the peptide modifies gonadotropin secretion. Intact female rats treated with alpha-MSH on diestrus 2 afternoon exhibited an increase in serum LH levels at 18 hr on proestrus and an elevated number of ova per rat the day of estrus when compared with saline-treated controls. Moreover, the peptide administered in chronically ovariectomized (CHR-OVX) rats treated with estradiol benzoate (EB) plus low doses of progesterone (P), increased LH in serum as well as P serum levels when compared with levels in CHR-OVX animals treated with EB plus P and saline solution instead of alpha-MSH. It has been shown that LH release is blocked by OVX and adrenalectomy (ADX) on the afternoon of proestrus; this blockade was reversed by an injection of alpha-MSH at the time of the operation. Measurements of P in ADX-OVX animals treated with alpha-MSH showed that P serum levels were maintained for longer periods of time when compared with the P serum levels of ADX-OVX animals treated with saline. On the other hand, alpha-MSH infused into CHR-OVX rats treated with low doses of EB, which can lower serum LH levels, lowered the serum LH even more, although the serum P levels were increased. Finally alpha-MSH did not affect the serum LH levels in diestrous rats. The present results demonstrated that alpha-MSH influences the release of LH by modifying the release and/or the degradation of P. This P, in turn, modifies LH serum concentrations, having either a stimulatory or inhibiting effect on the release of LH, apparently depending on the time period it remains high in serum.
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PMID:Release of LH in response to alpha-MSH administration. 293 12

We have investigated the role of adrenal steroids and the opiates in regulating arginine vasopressin (AVP) secretion into the pituitary stalk blood of the rat. The portal plasma concentration of AVP in urethane-anesthetized male rats was 532 +/- 68 pg/ml (mean +/- SEM), while the peripheral plasma AVP concentration in intact urethane-anesthetized rats was 20.7 +/- 5.7 pg/ml. Column chromatography on Sephadex G-25 of an extract of a pool of portal plasma revealed that the material being assayed comigrated with synthetic AVP. Bilateral adrenalectomy (ADX) 5 days before the collection of portal blood elevated portal plasma AVP concentrations approximately 6-fold (655 +/- 124 pg/ml in controls vs. 4090 +/- 504 pg/ml in adrenalectomized animals). Dexamethasone administration (15 micrograms/kg X day) for 5 days prevented the ADX-induced increase in portal plasma AVP concentrations without significantly changing portal plasma AVP concentrations in intact rats. Portal plasma concentrations of beta-endorphin were not changed by ADX or dexamethasone treatment. The iv infusion of morphine sulfate (3 mg/kg) dramatically decreased the concentration of AVP in the portal plasma of the rat (501 +/- 101 pg/ml before morphine vs. 185 +/- 50 pg/ml after morphine). The inhibitory effect of morphine was reversed by naltrexone (1.0 mg/kg), whereas naltrexone alone did not alter AVP secretion. Morphine administration also decreased systemic plasma AVP concentrations in urethane-anesthetized rats (27.1 +/- 6.6 pg/ml in controls vs. 3.3 +/- 1.3 pg/ml in morphine-treated rats). Naltrexone treatment reversed this effect. These results suggest that AVP secretion into pituitary stalk blood is under the inhibitory influence of the adrenal steroids, and the increased concentration of AVP found in portal blood may be partially responsible for the elevated levels of ACTH after ADX. Furthermore, morphine-induced activation of the pituitary-adrenal axis is apparently independent of hypothalamic AVP secretion.
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PMID:The concentration of arginine vasopressin in pituitary stalk plasma of the rat after adrenalectomy or morphine. 293 37

The synthesis and maturation of the precursor forms of three mitochondrial enzymes involved in steroid hormone biosynthesis have been studied in vivo. Primary cultures of bovine adrenocortical cells were radiolabeled with [35S] methionine and newly synthesized cholesterol side-chain cleavage cytochrome P-450 (P-450scc), 11 beta-hydroxylase cytochrome P-450 (P-450(11)beta), and adrenodoxin immunoisolated using specific antibodies. Both the precursor and mature forms of P-450scc and P-450(11)beta were detected during short periods of pulse labeling; however, the precursor forms were transitory in nature while their corresponding mature forms accumulated. Pulse-chase experiments showed that the precursor form of each cytochrome P-450 had an apparent half-life of 3.5 min. In contrast, the precursor form of adrenodoxin was not readily detected in pulse-labeling experiments until a substantial amount of its mature form had accumulated. When the cultured cells were treated with a chelator of divalent cations (o-phenanthroline) or a mitochondrial uncoupler (dinitrophenol), the maturation of all three precursors was inhibited. The synthesis of the P-450scc and P-450(11)beta precursors was induced in cells maintained in the presence of adrenocorticotropin, and the rates of appearance of their processed forms were also increased. The mature forms of all three proteins were immunoisolated from a trypsinized mitochondrial fraction prepared from the radiolabeled cells, demonstrating that the mature proteins were localized within the organelle. These studies establish that the maturation of the precursor forms of the mitochondrial steroidogenic enzymes are characterized by steps similar to those reported for other mitochondrial precursor proteins.
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PMID:Synthesis and processing of mitochondrial steroid hydroxylases. In vivo maturation of the precursor forms of cytochrome P-450scc, cytochrome P-450(11)beta, and adrenodoxin. 299 69

Maintenance of optimal steroidogenic capacity in the adrenal cortex is the result of a cAMP-dependent response to the peptide hormone corticotropin (ACTH). The molecular mechanism of this action of ACTH has been examined by using five recombinant DNA clones specific for enzymes of the steroidogenic pathway (P-450scc, P-45011 beta, P-450C21, P-45017 alpha, and adrenodoxin). The presence of nuclear precursors in steady-state RNA samples derived from cultured bovine adrenocortical cells and moderate increases in the number of RNA chain initiations, as determined by in vitro nuclear run-off assays, indicate that ACTH controls the expression of the gene(s) for each of these proteins at the transcriptional level. The ACTH-mediated increase in accumulation of transcripts specific for steroid hydroxylases in nuclear RNA can be specifically blocked by inhibiting protein synthesis in bovine adrenocortical cell cultures. The steady-state concentrations of nuclear RNA for control genes show no decrease upon cycloheximide treatment. These studies suggest that a primary action of ACTH in the adrenal cortex is to activate (via cAMP) the synthesis of rapidly turning over protein factors that in turn mediate increased initiation of transcription of steroid hydroxylase genes. We propose that these protein factors impart specificity of induction to genes encoding components of this pathway in steroidogenic tissues.
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PMID:Transcriptional regulation of steroid hydroxylase genes by corticotropin. 301 7

Insulin-like growth factors (IGFs) are single-chain polypeptides important for cell proliferation and growth. IGFs are produced in several tissues, suggesting that they function in a paracrine or autocrine fashion as well as functioning as endocrine hormones. We studied the hormonal regulation of IGF-I and IGF-II mRNA in human steroidogenic tissues. In cultured human ovarian granulosa cells, follicle-stimulating hormone, human chorionic gonadotropin, and dibutyryl cAMP increased IGF-II mRNA, but corticotropin [adrenocorticotropic hormone (ACTH)], chorionic somatomammotropin, growth hormone, prolactin, dexamethasone, estradiol, and progesterone had no effect. In cultured human fetal adrenal cells, ACTH and dibutyryl cAMP increased IGF-II mRNA accumulation, but human chorionic gonadotropin and angiotensin II did not. The same five size species of IGF-II mRNA were detected in transfer blots of RNA from granulosa cells and fetal adrenal cells, and all of these increased after hormonal stimuli. Dibutyryl cAMP also increased IGF-II mRNA accumulation in cultured human placental cells. Accumulation of mRNA for the cholesterol side-chain-cleavage monooxygenase [P450scc [corrected]; cholesterol, reduced-adrenal-ferredoxin:oxygen oxidoreductase (side-chain-cleaving), EC 1.14.15.6] was regulated in parallel with IGF-II mRNA in all these steroidogenic tissues. IGF-I mRNA was not detected in transfer blots of these RNAs, and the minimal amounts detected in dot blots showed no detectable change after any of the hormonal stimuli studied. The data indicate that the IGF-II gene is expressed in human steroidogenic tissues and is regulated by cAMP. These data suggest that IGF-II may act in an autocrine or paracrine fashion to stimulate the adrenal and gonadal growth stimulated by ACTH and gonadotropins, respectively.
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PMID:Coordinate tropic hormone regulation of mRNAs for insulin-like growth factor II and the cholesterol side-chain-cleavage enzyme, P450scc [corrected], in human steroidogenic tissues. 303 44

The developmental expression of adrenocortical steroid hydroxylases was studied in bovine fetuses from 40 to 280 days gestational age. The expression of P-450(17 alpha) is first detected at a gestational age of 50 days and reaches a maximum at 60-70 days. The expression of P-450(17 alpha) then declines and is nondetectable at a gestational age of 100 days. P-450(17 alpha) is not expressed again until about 240 days, i.e. shortly before birth (approximately 280 days). P-450scc, P-450c21, P-450(11 beta) and adrenodoxin were present in fetal adrenals throughout gestation. This "on-off-on" pattern of P-450(17 alpha) expression during fetal development was associated with a corresponding episodic production of cortisol. Immunoreactive corticotropin (ACTH) levels in fetal plasma were elevated in small fetuses (corresponding to less than or equal to 100 days) and in near-term fetuses (corresponding to greater than 250 days) compared with those in mid-gestation fetuses. In primary culture, adrenal cells from mid-gestation fetuses contained no detectable P-450(17 alpha) but rapidly responded to ACTH with an increase in P-450(17 alpha) protein and mRNA. The tissue specificity of the developmental patterns is emphasized by the fact that both P-450(17 alpha) and P-450scc were detectable throughout the development of the fetal testes, whereas only P-450scc was detectable in fetal bovine ovary prior to 200 days. Thus, in fetal bovine adrenal it appears that ACTH is the major regulatory factor effecting the intermittent presence of P-450(17 alpha), whereas the presence of the other steroid hydroxylases is either regulated by additional factors or shows a much different sensitivity to ACTH.
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PMID:Developmental expression of bovine adrenocortical steroid hydroxylases. Regulation of P-450(17 alpha) expression leads to episodic fetal cortisol production. 326 67

The effect of frontal deafferentation of the medial basal hypothalamus on pro-opiomelanocortin (POMC) gene expression was studied in the intermediate lobe (IL) and anterior lobe (AL) of the pituitary gland in the absence and presence of corticosterone (CORT). The lesion in the basal hypothalamus removed neural inputs to the IL and induced the glucocorticoid receptor (GR) in this tissue. The GR was visualized in the denervated IL by immunocytochemistry. Induction of the GR had a slow onset and was detectable at 3 weeks after lesion, but not at one week after the lesion. In order to study the effect of IL denervation on pro-opiomelanocortin (POMC) gene expression, the level of messenger RNA specifically encoding POMC was measured 1 and 3 weeks after lesion, in the IL and AL. In adrenalectomized (ADX) animals, the changes in POMC mRNA levels were not significant 1 week after lesion in the IL. Three weeks after denervation there was a 3-fold decrease in POMC mRNA in the IL in ADX rats which was blocked by chronic CORT replacement via subcutaneously implanted pellets. In the AL, CORT reduced the level of POMC gene expression in both the lesioned and control animals. It is concluded that (1) removal of neural input induces GR in the denervated IL cells; (2) with the appearance of the GR, POMC gene expression in the IL becomes sensitive to circulating glucocorticoids; (3) under these conditions, CORT may stimulate POMC gene expression in the IL as opposed to its inhibitory effect in the AL.
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PMID:Stimulation of pro-opiomelanocortin gene expression by glucocorticoids in the denervated rat intermediate pituitary gland. 337 60

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