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)

We have previously reported that treatment of cultured mouse adrenal tumor cells with 0.6-1.2 microM monensin, a monovalent carboxylic ionophore, results in disruption of the organized structure of the Golgi complex. This is associated with an inhibition of adrenocorticotropic hormone (ACTH) or dibutyryl cAMP-stimulated steroidogenesis and impairment of mitochondrial cholesterol side-chain cleavage activity. The present report describes further investigations regarding possible mechanisms for the inhibition. Monensin inhibits both synthesis of fluorogenic steroids and incorporation of [14C]acetate into the end-product steroid 11 beta,20 alpha-dihydroxy-4-pregnen-3-one. Supplementation of monensin-treated cells with 25-hydroxycholesterol, a readily available substrate for steroidogenesis, does not reverse the inhibitory effect on the reaction. The incorporation of L-[35S]methionine into trichloroacetic acid precipitable proteins in the isolated mitochondria of monensin-treated cells is inhibited approximately by 40%, whereas the inhibitory effect on the proteins in the cell homogenate is marginal. These findings suggest that a deficiency of newly synthesized proteins in mitochondria, rather than the availability of the substrate cholesterol, may be the primary factor causing impairment of steroidogenesis.
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PMID:Further characterization of the inhibitory effect of monensin on adrenal steroidogenesis. 217 Jul 65

GRF promotes follicular maturation and ovulation when administered with FSH in the treatment of infertility. Such actions could be mediated by stimulation of GH secretion and insulin-like growth factor I production, but the known actions of the structurally related hormone, vasoactive intestinal peptide (VIP), on granulosa cell function suggested that GRF may also act directly on the ovary to stimulate follicular development. Radioligand binding and activation studies, performed in granulosa cells from immature estrogen-treated rats, revealed a common receptor for VIP and rat (r) GRF in the ovary. Specific binding of [125I]VIP to granulosa cells was saturable and dependent on time and temperature. The relative potencies of VIP-related peptides for inhibition of radioligand binding were: VIP greater than rGRF greater than peptide histidine isoleucinamide greater than [His1,Nle27] human GRF(1-32)NH2 greater than secretin. In binding studies with the potent GRF agonist, [125I] [His1,Nle27]GRF(1-32)NH2, relative potencies were: rGRF(1-43)OH greater than [His1,Nle27]human GRF(1-32)NH2 greater than VIP greater than peptide histidine isoleucinamide greater than secretin. Glucagon and gastric inhibitory peptide, other peptides of the glucagon superfamily, and unrelated peptides including CRF and beta-endorphin, did not inhibit binding of either radioligand to ovarian receptors. In cultured granulosa cells, rGRF and VIP stimulated cAMP formation, consistent with coupling of their receptors to the adenylate cyclase system, and potentiated FSH-induced cAMP production. Both peptides also amplified FSH-induced progesterone biosynthesis, aromatase activity, and LH receptor formation. These observations demonstrate that rGRF is a potent cAMP-mediated agonist in the rat ovary and acts on a common VIP/GRF receptor in maturing granulosa cells. It is likely that the potentiating effect of administered GRF on gonadotropin-stimulated follicular development in vivo is in part mediated by direct actions of the peptide on the VIP/GRF receptor. Also, since GRF is present in the gonads, it is possible that the locally-produced peptide promotes follicular maturation by paracrine modulation of the stimulatory action of FSH on granulosa cell function.
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PMID:Receptor-mediated actions of growth hormone releasing factor on granulosa cell differentiation. 217 7

Tyrosinase synthesis and its regulation in human melanocytes was studied by measuring the incorporation of [35S] methionine into incubated skin biopsies. Tyrosinase was detected in all skin samples with the highest levels in skin type IV and the lowest levels in skin type I. Following psoralen ultraviolet A (PUVA) therapy for several weeks, significant increases in the amounts of tyrosinase were found in skin types III and IV. The presence of alpha-melanocyte-stimulating hormone (alpha-MSH) (100 mumol/l) or the long-acting analogue [Nle4, DPhe7] alpha-MSH (1-10 mumol/l) in the incubation medium failed to alter tyrosinase levels in the skin biopsies taken from patients both before and after receiving PUVA therapy. Bromo-adenosine 3,5-cyclic monophosphate sodium salt (8-bromo-cAMP) (10 mmol/l), on the other hand, increased the amounts of tyrosinase both before and after PUVA, but these effects were only seen in biopsies of type III and IV skin. These results indicate that MSH fails to stimulate tyrosinase synthesis in human melanocytes. Nevertheless, tyrosinase synthesis and its regulation by cyclic AMP-dependent mechanisms could be important control points in the pigmentary response.
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PMID:Tyrosinase synthesis in different skin types and the effects of alpha-melanocyte-stimulating hormone and cyclic AMP. 217 91

We studied the kinetics of corticotropin (ACTH) induction of mitochondrial cytochromes P450scc and P450c11 and their electron transport proteins, adrenodoxin and adrenodoxin reductase, in bovine adrenal cortex cells in primary culture. The mRNA levels of these enzymes increase and reach a peak within 3-12 h after ACTH addition. The protein levels of adrenodoxin reductase and P450scc show an increase only nearly 24 h after ACTH addition. After ACTH addition, the intracellular level of cAMP reaches maximal levels within 5 min, and then decreases gradually over 60 min. Hence, we examined the effect of a pulse of ACTH or cAMP analogs on enzyme and mRNA levels. Exposure of the cells to ACTH for 1-2 h was sufficient for maximal induction of the enzymes and P450scc mRNA. In contrast, the induction of the enzymes and the mRNA by cAMP analogs or forskolin required the continuous presence of these agents for over 12 h. But, these agents stimulated cortisol secretion to the medium quickly, indicating that they can activate some intracellular processes while not showing any effect on enzyme induction. The absence of any effect of prolonged cAMP pulses on enzyme and mRNA levels weakens the previous hypothesis that cAMP is the sole second messenger for the ACTH induction of steroidogenic enzymes in adrenal cortex cells. The inductive ability of a brief pulse of ACTH indicates that ACTH can rapidly initiate a series of reactions that result in enzyme induction many hours later.
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PMID:Mechanism of corticotropin and cAMP induction of mitochondrial cytochrome P450 system enzymes in adrenal cortex cells. 217 15

The murine B cell line CH12.LX.C4.5F5 (CH12 (5F5) expresses adrenocorticotropin (ACTH) receptors, which can modulate IgM secretion by these cells. Interestingly, the response to ACTH was concentration dependent, inducing IgM secretion at subnanomolar amounts and suppressing secretion at micromolar amounts. With the use of an enzyme-linking immunospot assay it was possible to demonstrate that the ACTH-induced increase in IgM secretion by CH12 (5F5) cells was caused at least in part by an increase in the number of cells secreting IgM. CH12 (5F5) cells activated with suboptimal concentrations of LPS demonstrated a similar biphasic response. ACTH at concentrations of 10(-13) to 10(-9) M augmented IgM secretion in LPS-activated cells as much as sixfold, whereas 10(-6) M ACTH slightly decreased LPS-induced IgM secretion. At the mRNA level, subnanomolar concentrations of ACTH increased microH chain mRNA expression up to twofold in unstimulated or LPS-stimulated CH12 (5F5) cells. Taken together, these studies show that physiologically relevant concentrations of ACTH can interact directly with receptors on these B lymphocytes to enhance IgM secretion and microH chain mRNA expression. Although ACTH does increase intracellular cAMP levels in CH12 (5F5) B cells, it is unlikely that the induction of this second messenger pathway is by itself responsible for the ACTH induced B cell differentiation. The concentration of ACTH necessary to stimulate significant intracellular cAMP increases was 10- to 100-fold higher than that required to increase IgM secretion. Furthermore, CH12 (5F5) cells treated with varying concentrations of 8-bromo cAMP or cholera toxin were inhibited in their ability to secrete IgM. These results strongly suggest that the enhancing effects of ACTH on CH12 (5F5) IgM secretion are via mechanisms independent of those mediated by cAMP.
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PMID:Modulation of IgM secretion and H chain mRNA expression in CH12.LX.C4.5F5 B cells by adrenocorticotropic hormone. 217 28

The molecular recognition theory predicts that a reversed (3'----5') reading of an mRNA should yield a peptide that is structurally and functionally similar to that specified in the 5'----3' direction. We tested this idea by synthesizing a corticotropin (ACTH) analogue using a reverse reading of bovine mRNA for ACTH-(1-24). This peptide, designated ACTH-3'----5', had a similar hydropathic profile to native ACTH-5'----3' but had only 30% sequence homology and eight different charge substitutions. ACTH-3'----5' specifically bound to the surface of mouse Y-1 adrenal cells and to polyclonal anti-ACTH antibody. Additionally, ACTH-3'----5' stimulated cAMP synthesis and steroidogenesis in adrenal cells. These findings show that ACTH-3'----5' mimics the corticotropic properties of native ACTH, thereby further validating the molecular recognition theory.
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PMID:Steroidogenic activity of a peptide specified by the reversed sequence of corticotropin mRNA. 217 11

To determine if opioid peptides have a local effect on the modulation of progesterone (P4) synthesis, a study was made of the effect of beta-endorphin and leu-enkephalin on P4 production by pure preparations of small luteal cells and dissociated luteal cells comprising both small and large cells from cows 2-3 months pregnant. Corpora lutea were dispersed by collagenase, and the large and small luteal cells were separated using Percoll gradients. Viable luteal cells (5 x 10(5)) were incubated in 0.5 mL of Eagle medium for 2 h at 37 degrees C, in an atmosphere of 5% CO2. Cells were treated with 8-bromoadenosine 3',5'-monophosphate (8Br-cAMP), hCG, beta-endorphin (BE) and leu-enkephalin (LE) alone or in combination. When small luteal cells were used, P4 synthesis was significantly enhanced in the presence of opioid peptides alone (P less than 0.01); there was an additive effect with 8Br-cAMP and with hCG. For dissociated luteal cells, opioid peptides alone had no effect on P4 production but the stimulation of P4 production induced by 8Br-cAMP or hCG was significantly (P less than 0.01) inhibited in the presence of opioid peptides. In contrast, dissociated luteal cells that were preincubated with PGF2 alpha (degranulation) responded to the presence of BE with increased P4 synthesis similar to that seen with the pure preparation of small luteal cells. It is concluded that opioid peptides play an auto/paracrine role in both basal and tropic hormone-induced stimulation of steroidogenesis by the bovine luteal cell.
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PMID:Effect of beta-endorphin on steroidogenesis by bovine luteal cells. 221 91

This paper discusses hormonal and metabolic reactions of healthy volunteers exposed to 14-day starvation. This exposure led to many-fold increase of plasma and urinary epinephrine (E); drastic increase of ACTH and beta-endorphin (BE), morning and integrated concentrations of cortisol and STH, aldosterone, T3, glucagon, cAMP, cGMP, cAMP-cGMP, acetyl choline (AC), free fatty acids (FFA), lactate, metanephrine (MN) excretion; decrease of plasma norepinephrine (NE) and unchanged NE excretion; decrease of plasma concentrations of TTH, T4, T3, prolactin (PL), insulin (morning and integrated concentrations), C-peptide, FSH, LH, testosterone, histamine, prostaglandins (PG) A + E, PG F2, glucose and pH, as well as decrease of excretion of homovanillic acid (HVA), vanillyl mandelic acid (VMA), normetanephrine (NMN) and MN-E, NMN:NE. On recovery day 14 concentrations of E, NE, BE, STH, AC, cAMP, cGMP, FFA as well as E and dopamine excretion remained elevated while concentrations of T3, PL, FT, LT, testosterone PG A + E, PG 2 and excretion of MN, HVA, VMA, MN:E remained decreased, while other parameters returned to the normal.
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PMID:[Hormonal and metabolic reactions in the human body during prolonged starvation]. 237 73

Corticotropin (ACTH)-releasing factor, vasoactive intestinal peptide, and catecholamines--hormones that stimulate ACTH secretion and cAMP generation--increased cytosolic calcium in AtT-20 cells. The increase in intracellular calcium is presumably a consequence of the stimulated cAMP synthesis, since forskolin, an activator of the catalytic unit of adenylate cyclase, and the cAMP analog 8-bromoadenosine 3',5'-cyclic monophosphate (8Br-cAMP) also increased the cytosolic levels of this ion. Pretreatment with somatostatin, a neuropeptide that inhibits stimulation of the adenylate cyclase system and the secretion of ACTH blocked the increase of cytosolic calcium. The effect of 8Br-cAMP, which bypasses the cyclase, was not inhibited by somatostatin pretreatment. The source of the increased calcium appears to be mainly extracellular. This is indicated by the inability of the secretagogues to increase cytosolic calcium in a medium deprived of this ion or in the presence of blockers of voltage-gated calcium channels. The involvement of calcium channels in the calcium rise evoked by the secretagogues was supported by experiments using the whole-cell patch-clamp technique. In these experiments 8Br-cAMP increased voltage-dependent calcium currents. These results suggest the following chain of events in the receptor-mediated elevation of cytosolic calcium and the concomitant release of ACTH from AtT-20 cells: hormone-receptor binding----cAMP synthesis----protein kinase activation----calcium channel activation----increase in cytosolic calcium----many steps----ACTH release. Phorbol myristate acetate, a compound which does not stimulate cAMP generation but enhances the release of ACTH in AtT-20 cells, decreased the cytosolic calcium level.
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PMID:Hormone secretagogues increase cytosolic calcium by increasing cAMP in corticotropin-secreting cells. 241 78

Somatostatin and carbachol receptors are believed to be negatively coupled to adenylate cyclase in AtT-20 mouse pituitary tumor cells by an inhibitory guanine nucleotide-binding regulatory subunit. Activation of these receptors causes inhibition of cyclic AMP synthesis and adrenocorticotropin (ACTH) secretion stimulated by a variety of hormones. Secretion in response to several pharmacological agents, which do not increase AtT-20 cyclic AMP levels, is also antagonized by both somatostatin and carbachol. Inasmuch as ACTH secretion in response to all stimulants is dependent on extracellular calcium, the possibility that somatostatin and carbachol block calcium entry was investigated by observing the effects of these agents on the activity of the calcium channel activator, BAY-K-8644 [methyl-1,4-dihydro-2,6-dimethyl-3-nitro-4- (2-trifluoromethylphenyl)-pyridine-5-carboxy-late] in AtT-20 cells. In first characterizing the effect of BAY-K-8644, it was noted that the channel agonist at 10(-10) to 10(-6) M itself rapidly increased basal ACTH secretion; higher concentrations (10(-4) M) reduced basal, (-)-isoproterenol, phorbol ester, 8-Br-cAMP and K+-stimulated secretion. BAY-K-8644 did not alter basal formation of cyclic AMP. The secretory response to BAY-K-8644 was dependent on extracellular calcium, and was inhibited by the calcium channel antagonist, nifedepine. When coapplied with (-)-isoproterenol, phorbol ester and 8-Br-cAMP, at a concentration which optimally stimulated ACTH secretion, BAY-K-8644 had an additive effect; the secretory responses to K+ (50 mM) or the calcium ionophore, A-23187, on the other hand, were potentiated.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Stimulation of adrenocorticotropin secretion from AtT-20 cells by the calcium channel activator, BAY-K-8644, and its inhibition by somatostatin and carbachol. 241 8


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