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: EC:4.6.1.1 (adenylate cyclase)
19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Low basal GH secretion and reduced GH responsiveness to different GH secretagogues, including GHRF, have been reported in aged animals and humans. Parallel to the in vivo findings, an impaired GH responsiveness to GHRF is evident in somatotropes from old rats of either sex. We report here that in anterior pituitaries (APs) from aged male and female rats GHRF-induced stimulation of adenylate cyclase (AC) activity was strikingly reduced (male rats, change from baseline 700% in young and 100% in old rats) or lacking (female rats, change from baseline 430% in young and 13% in old rats) when compared to that evoked by GHRF in the APs from young counterparts. Pretreatment with GHRH (5 micrograms/rat iv for 3 days) decreased the high basal AC activity of old male rats [from 33.38 +/- 3.60 to 15.99 +/- 5.75 (SEM) pmol cAMP/min.mg protein], did not alter the GHRF-stimulated rise in AC activity in old male rats, and induced a small but unequivocal rise in AC activity in old female rats (change from baseline 35% vs. 13%, respectively). Pretreatment with GHRF markedly reduced the acute effect of GHRF in the APs from young rats of both sexes (male rats, change from baseline 360% and 700%; female rats, change from baseline 230% and 430% in GHRF-pretreated and control rats, respectively). In parallel studies performed in female rats, it was shown that in vivo pretreatment with GHRF at the same schedule markedly reduced the effect of acute GHRF stimulation on GH secretion from cultured pituitary cells of young rats but left unchanged GHRF-induced stimulation of GH secretion from pituitary cells of old rats. In all, these data suggest that deficiency of endogenous GHRF synthesis and/or release may underlie defective GH secretion in old rats and that a GHRF replacement regimen that reduces the sensitivity of the young somatotrope cells does not alter the sensitivity of (male rats) or exerts a priming effect (female rats) on the old somatotrope cell.
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PMID:Different regulation of growth hormone-releasing factor-sensitive adenylate cyclase in the anterior pituitary of young and aged rats. 311 20

Crude membranes (27,000 g pellets) from five normal human pancreases were prepared. In the presence of GTP, the peptides of the secretin family stimulated adenylate cyclase activity, their order of potency being: secretin greater than helodermin greater than peptide histidine isoleucinamide (PHI) greater than or equal to vasoactive intestinal peptide (VIP) greater than growth hormone releasing factor (GRF) (1-29)-NH2. In addition, helodermin and PHI were more efficient than secretin. Secretin (3-27) inhibited fully the secretin stimulation and partially only the helodermin and PHI stimulation of the enzyme. Secretin receptors were investigated by the ability of secretin and related peptides to inhibit tracer binding. [125I]Secretin binding was fully inhibited by secretin (Kd 0.8 nM), helodermin (Kd 200 nM), and PHI (Kd 250 nM). VIP and GRF(1-29)-NH2 induced partial (20%) inhibition at a high 10 microM concentration. The fragments secretin (2-27), (3-27), (4-27), and (7-27) showed the same low potency and efficacy based on their ability to stimulate adenylate cyclase and to occupy secretin receptors. The analogues [Val5]secretin and [Ala2]secretin had a higher potency than secretin. Based on this comparison of adenylate cyclase stimulation and [125I]secretin binding inhibition, it is tempting to conclude that the human pancreas: (a) possesses highly specific secretin receptors and (b) such receptors could not fully account for the whole pattern of adenylate cyclase activation by related peptides, so that the presence of an added type of "helodermin-PHI-preferring" receptors is suggested.
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PMID:Secretin receptors in human pancreatic membranes. 318 83

1. The effect of vasoactive intestinal polypeptide (VIP) upon adenylate cyclase activity was determined in purified cortical basolateral membranes and in glomeruli and tubular elements obtained from rabbit kidney. 2. In purified basolateral membranes prepared from cortex, 1 microM-VIP consistently stimulated adenylate cyclase activity above basal levels (1.55 +/- 0.09-fold (mean +/- S.E. of mean), n = 10 animals). Half-maximal stimulation was observed at 17 +/- 11 nM-VIP (S.D., n = 9). 3. Related peptides, e.g. secretin, glucagon, gastric inhibitory peptide, human pancreatic growth hormone releasing factor, and peptide having N-terminal histidine and C-terminal isoleucine amide (PHI), were without effect or gave lower stimulations of adenylate cyclase activity when tested at 1 microM. 4. Significant VIP degradation was observed under the assay conditions used but this did not substantially alter the response or selectivity to VIP. 5. In separate preparations of isolated glomeruli and proximal tubules addition of 1 microM-VIP resulted in a 3.3 +/- 1.1-fold (S.D., n = 3) and 2.2 +/- 1.0-fold (S.D., n = 3) stimulation (respectively) of adenylate cyclase activity. 6. In isolated medullary tubule suspensions, isolated by collagenase-hyaluronidase digestion of outer (red) medulla, and in thick ascending-limb-enriched preparations prepared by Percoll density gradient fractionation, 1 microM-VIP significantly increased adenylate cyclase activity by 2.4 +/- 0.6-fold (S.D., n = 3) and 2.1 +/- 0.7-fold (S.D., n = 3) respectively. 7. A possible role for VIP in the regulation of renal function in the rabbit is discussed in relation to the occurrence of VIP stimulation of adenylate cyclase activity in several renal cellular elements.
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PMID:Vasoactive intestinal polypeptide regulation of rabbit renal adenylate cyclase activity in vitro. 365 72

We have previously shown that insulin-like growth factor (IGF-I) suppresses basal and GHRH-induced GH gene transcription. cAMP is a putative intracellular mediator of GHRH action. We, therefore, studied the mechanism of IGF-I action on the somatotroph with or without cAMP activators. Primary rat pituitary cells growing in serum-free medium were treated with IGF-I. GH secretion was measured by RIA, and mRNA levels were measured by hybridization to [32P]GH cDNA. 8-Bromo-cAMP (8-Br-cAMP; 0.625 mM) stimulated GH mRNA levels after 72 h by 238%. IGF-I (6.5 nM) caused a 64% inhibition of 8-Br-cAMP-stimulated GH mRNA levels and a similar inhibition of GH secretion. This inhibition was time and dose dependent, with maximal (71%) suppression of cAMP-induced GH achieved with 13 nM IGF-I after 72 h. Forskolin (1 microM), a stimulator of adenylate cyclase, stimulated GH secretion (198%) which was inhibited by IGF-I by 42%. 12-O-Tetradecanoylphorbol 13-acetate, (a phorbol ester; 50 nM), a potent activator of protein kinase C, strongly stimulated GH secretion (347%), which was similarly suppressed by IGF-I by 51%. The suppressive action of IGF-I on somatotroph gene expression is unimpaired by direct activation of both cAMP and protein kinase C, suggesting that IGF-I acts upon the GH gene by a mechanism that is not altered by these second messengers. The negative feedback inhibition of physiological concentrations of IGF-I on GH, therefore, appears to override the potent stimulation of GH by these intracellular messengers.
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PMID:Insulin-like growth factor I action on rat anterior pituitary cells: effects of intracellular messengers on growth hormone secretion and messenger ribonucleic acid levels. 367 37

We have studied the responsiveness of vascular adenylate cyclase to vasoactive intestinal peptide (VIP) and parathyroid hormone (PTH) using preparations of cerebral microvessels and arteries. Cerebral microvessels obtained from rats, guinea-pigs, cattle, and pigs all responded potently to bovine (b) PTH-(1-34), whereas considerable between-species variability was observed in the responsiveness to VIP. The homologous peptide to VIP, PHI (porcine heptacosapeptide), stimulated adenylate cyclase in both rat microvessels and a broken-cell preparation of bovine arteries. The ED50 values for activation of bovine arterial adenylate cyclase by VIP, PHI, and bPTH-(1-34) were 6.9 nM, 10 nM, and 100 nM, respectively, with the following order of efficacy: VIP = PHI greater than bPTH-(1-34). The other related peptides, hpGRF (human pancreatic growth hormone releasing factor), secretin, and glucagon, and the fragment VIP-(10-28) were inactive. The PTH antagonist, [Nle8, Nle18, Tyr34]bPTH-(3-34) amide, inhibited bPTH-(1-34) activation of vascular adenylate cyclase but did not affect activation by VIP using either microvessels or arteries. VIP or PHI demonstrated an additive effect with bPTH-(1-34) on vascular adenylate cyclase activity. However, the effects of VIP and PHI were nonadditive with each other. These data suggest that VIP and bPTH-(1-34) activate cerebral vascular adenylate cyclase by interacting with pharmacologically distinct receptors, whereas PHI and VIP likely interact with a common receptor.
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PMID:Cerebral vascular adenylate cyclase: evidence for coupling to receptors for vasoactive intestinal peptide and parathyroid hormone. 608 40

The stimulatory effect of maximal concentrations of synthetic human pancreatic growth hormone (GH)-releasing factor (GRF)(1-40)NH on cyclic AMP accumulation in rat anterior pituitary cells in culture is 4.5-fold increased following a 48-h preincubation with the potent glucocorticoid dexamethasone while the sensitivity of GRF action is increased by approximately 4-fold. Dexamethasone pretreatment, on the other hand, has no effect on basal cyclic AMP levels but approximately doubles both basal and GRF-induced GH release. The present data suggest that the potent stimulatory effect of glucocorticoids on GH secretion is exerted on the adenylate cyclase system at a step preceding cyclic AMP formation.
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PMID:Dexamethasone is a potent stimulator of growth hormone-releasing factor-induced cyclic AMP accumulation in the adenohypophysis. 608 69

The binding of radiolabeled glucagon to rat brain membranes was investigated. Regional distribution studies indicate higher specific binding of 125I-labeled monoiodoglucagon to olfactory tubercule, hippocampus, anterior pituitary, and amygdala membranes, with somewhat lower binding to membranes from septum, medulla, thalamus, olfactory bulb, and hypothalamus. 125I-labeled glucagon bound to rat brain synaptic plasma membrane fractions with high affinity (KD = 2.24 nM). Specific binding was greater to synaptosomal membrane fractions relative to myelin, mitochondrial nuclear, or microsomal fractions. Inclusion of 0.1 mM GTP in the binding assay reduced the glucagon binding affinity (KD = 44.5 nM). Several neuropeptides and other neuroactive substances tested did not affect binding of labeled glucagon to brain membranes. Three different glucagon analogs inhibited labeled glucagon binding. Synthetic human pancreatic growth hormone-releasing factor, hpGRF-44, also inhibited binding, although the concentration required for half-maximal displacement was 100-fold higher than for native glucagon. Addition of glucagon to brain membranes resulted in approximately equal to 3-fold maximal activation of adenylate cyclase over basal levels. Glucagon at a concentration of 4.74 nM was required for half-maximal activation of pituitary membrane adenylate cyclase. These findings provide evidence for rat brain binding sites that respond to the pancreatic form of glucagon and can transduce this binding into the activation of adenylate cyclase.
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PMID:Identification of glucagon receptors in rat brain. 608 21

Synthetic human pancreatic growth hormone-releasing factor (hpGRF)(1-40)-NH2 stimulates adenylate cyclase activity in rat anterior pituitary particulate fraction at an ED50 value of approximately 150 nM. GTP more than doubles the stimulatory effect of hpGRF and PGE2 on [32P] cyclic AMP formation. The present data show that hpGRF as well as PGE2, another potent stimulus of GH secretion, act at least partly, through GTP-dependent mechanisms in their coupling with adenylate cyclase.
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PMID:Growth hormone-releasing factor stimulates adenylate cyclase activity in the anterior pituitary gland. 613 29

Synthetic human pancreatic growth hormone-releasing factor (hpGRF(1-40)-NH2) causes a 100% stimulation of cyclic AMP cell content in rat adenohypophysial cells in culture as early as 1 min after its addition while a maximal 33-fold increase is measured at 40 min. Somatostatin (10 nM) causes a 40-60% inhibition of GRF-induced cyclic AMP accumulation while GH release is inhibited by 90-95% at all time intervals. The inhibitory effect of somatostatin is exerted on the maximal effect of GRF while the ED50 values of GRF action on cyclic AMP cell content (approximately 1 nM) and GH release (approximately 0.1 nM) are not affected by the tetradecapeptide. Prostaglandin E2 causes a 2.5-fold increase in cyclic AMP levels within 1 min after its addition with a maximal 25-fold stimulation measured at 30 min. Although not completely additive, the stimulatory effects of PGE2 and GRF together on cyclic AMP cell content and GH release are more potent than when either substance is present alone. The inhibitory effects of somatostatin on PGE2 action are analogous to those observed in the presence of GRF. The present data suggest that the hypothalamic control of GH secretion by GRF and somatostatin results, at least to a large extent, from the balance between the stimulatory action of GRF and the inhibition of somatostatin on the adenylate cyclase system.
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PMID:Interactions between growth hormone-releasing factor, prostaglandin E2 and somatostatin on cyclic AMP accumulation in rat adenohypophysial cells in culture. 614 Jan 96

Pituitary GH secretion is regulated by Ca+2 and cAMP. We show that human pancreatic tumor GRF (hpGRF) stimulates anterior pituitary adenylate cyclase activity, cAMP accumulation, and GH release. The relationship between Ca+2 and the stimulating effects of the Ca+2 ionophore A23187 on cAMP accumulation and GH release in vitro was studied. To evaluate the role of the Ca+2-binding protein calmodulin in this system, we used the calmodulin antagonist W7, a naphthalene-sulfonamide derivative, and its less active analog W5. W7 inhibited hpGRF-stimulated adenylate cyclase activity, cAMP accumulation, and GH release, whereas W5 was either poorly effective or ineffective. Somatostatin (SRIF) also attenuated hpGRF stimulation of adenylate cyclase. These results suggest that the actions of Ca+2-calmodulin and cAMP are interrelated in modulating GH release. Calmodulin participates in hpGRF stimulation of adenylate cyclase, cAMP formation, and GH release. The attenuation of hpGRF-stimulated adenylate cyclase activity by SRIF may be one of the mechanisms for its GH inhibitory action.
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PMID:Human pancreatic tumor growth hormone-releasing factor stimulates anterior pituitary adenylate cyclase activity, adenosine 3',5'-monophosphate accumulation, and growth hormone release in a calmodulin-dependent manner. 614 31


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