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)

1. In the present study we examined the in vitro effect of vasoactive intestinal peptide (VIP) on spontaneous contractions in both inner and outer layers of non-pregnant human myometrium. A dose-dependent relaxation was observed, but with a marked difference in sensitivity to VIP between the two layers, with an IC50 value of 1 x 10(-8) and 1 x 10(-5) mol L in the outer and inner layers, respectively. 2. We also established that VIP did not directly stimulate the adenylate cyclase activity. The only slight stimulations were observed in non-initial rate conditions. The maximal response of this indirect effect was obtained for VIP concentrations between 1 x 10(-9) and 1 x 10(-8) mol/L and this occurred to the same extent (an approximately 1.4-fold increase) in both layers. However this response is specific, since structurally related peptides such as glucagon, gastric inhibitory polypeptide (GIP), secretin, or human growth hormone-releasing factor (hGRF) had no effect in our preparations. 3. Autoradiographic studies revealed that specific VIP binding sites were located on the vascularization of the intermediate vascular layer and on arterioles and venules distributed in the inner and outer myometrial layers. They were also present in the endometrium, but not on smooth muscle cells of either layer. 4. Such observations could provide evidence for another signal transduction pathway to mediate the biological effect of VIP. An additional intermediate step on the vascularization distributed in all of the muscle cannot be excluded.
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PMID:The effect of vasoactive intestinal peptide (VIP) on the contractile activity of human uterine smooth muscle. 164 25

Mechanisms by which various classes of extracellular signals regulate insulin secretion are discussed regarding their cellular and molecular actions. Under physiological circumstances, the small postprandial changes in plasma glucose concentrations (approximately 4.4-6.6 mM) primarily serve as a conditioned modifier of insulin secretion and dramatically alter the responsiveness of islets to a combination of neurohormonal agonists. These agonists have two functions. Cholecystokinin (CCK) and acetylcholine activate the hydrolysis of polyphosphoinositides, and gastric inhibitory polypeptide (GIP) and glucagonlike peptide 1 activate adenylate cyclase. These two functional classes of neurohumoral agonists act synergistically to enhance insulin secretion when plasma glucose is greater than 6.0 mM but not when it is less than or equal to 4 mM. On the other hand, an increase in plasma glucose concentration to 8-10 mM induces an increase in insulin secretory rate in the absence of any of the neurohormonal agonists. Remarkably, high glucose leads to an increase in the same intracellular signals, as does a combination of acetylcholine and GIP. On the basis of these data, a model of how insulin secretion is regulated under physiological circumstances is proposed. This model emphasizes that the regulation of insulin secretion occurs in three stages: cephalic, early enteric, and later enteric. In this view, the crucial event occurring during the first two phases is the agonist-induced, translocation of protein kinase C (PKC) to the plasma membrane under conditions in which an increase in Ca2+ influx does not occur. PKC is now in a cellular location and a Ca2(+)-sensitive conformation such that an increase in Ca2+ influx rate occurring during the third phase leads to its immediate activation and an enhanced rate of insulin secretion. Furthermore, under physiological circumstances, an optimal insulin secretory response is dependent on a correct temporal pattern of signals arising from neural and enteric sources. If this pattern is deranged, an abnormal pattern of insulin secretion is observed. An important new insight is provided by the observation that agonists (e.g., CCK or acetylcholine) that act to stimulate the hydrolysis of phosphatidylinositides, when acting for a short period (10-20 min), induce an enhanced responsiveness of islets to glucose, i.e., proemial sensitization. However, when acting unopposed for several hours, these agonists will induce a time-dependent suppression of responsiveness to glucose and other agonists. The latter observation implies that optimal insulin secretion is dependent on periodic rather than a continuous exposure to the correct pattern of extracellular signals.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Physiology and pathophysiology of insulin secretion. 219 49

In the insulin-secreting beta cell line Rin m 5F, galanin, a newly discovered ubiquitous neuropeptide, inhibited, by 50%, the stimulation of insulin release induced by gastric inhibitory polypeptide (GIP) or forskolin, i.e. two cAMP-generating effectors. In contrast, it failed to decrease the stimulation of insulin release elicited by either the Ca2+-mobilizing agent, carbamoylcholine, or by dibutyryl-cAMP. Concomitantly, galanin inhibited the GIP- and forskolin-stimulated cAMP production. Furthermore, adenylate cyclase in membranes from Rin m 5F cells was highly sensitive to galanin, which exerted a marked inhibitory effect on the forskolin-stimulated enzyme activity. All these galanin effects were observed at low physiological doses, in the nanomolar range. Overnight treatment of the Rin m 5F cells with pertussis toxin completely abolished the inhibitory effect of galanin on insulin release, cAMP production and adenylate cyclase activity. Moreover, pertussis toxin specifically ADP-ribosylated a 39-kDa protein present in membranes from those cells. Taken together, these data show that the galanin inhibition of insulin release most likely occurs through the inhibition of adenylate cyclase, involving a petussis-toxin-sensitive inhibitory GTP-binding regulatory protein.
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PMID:Mechanism of galanin-inhibited insulin release. Occurrence of a pertussis-toxin-sensitive inhibition of adenylate cyclase. 246 Mar 48

Specific gastric inhibitory polypeptide (GIP) receptors were characterized in human benign insulinoma plasma membranes employing [mono-[125I]iodo-Tyr10]-GIP (125I-GIP) as the radioligand. GIP 1-42 inhibited 125I-GIP binding with an IC50 value of 10(-9) M. Scatchard analysis showed two classes of binding sites: a high-affinity site (Kd = 2.23 x 10(-10) M; Bmax = 24 fmol/mg protein) and a low-affinity site (Kd = 8.39 x 10(-9) M; Bmax = 118 fmol/mg protein). A synthetic replicate of human GIP 1-31 inhibited 125I-GIP binding with an IC50 value of 10(-8) M. The GIP binding sites of human insulinoma were coupled to adenylate cyclase stimulation. GIP 1-31 regulated the adenylate cyclase activity to the same extent as GIP 1-42. The concentrations of GIP required for maximal activity ranged from 10(-9) to 10(-8) M for either GIP 1-42 or GIP 1-31. The existence of functional GIP receptors in human insulinoma substantiates our recent reports demonstrating the presence of GIP binding sites in transplantable hamster insulinoma and indicates that GIP could exert a direct control of the beta-cell function in humans through a purely endocrine pathway.
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PMID:Evidence of functional gastric inhibitory polypeptide (GIP) receptors in human insulinoma. Binding of synthetic human GIP 1-31 and activation of adenylate cyclase. 282 18

The presence of vasoactive intestinal peptide (VIP) binding sites and the adenylate cyclase activity in response to VIP were examined in the human term placenta. Slices were used in order to preserve the physicochemical environment and the structural integrity of this heterogeneous organ. 125I-VIP binding to placental slices was saturable. The steady state was reached after 90 min at 37 degrees C and was maintained up to 3 h. Unlabeled VIP was able to compete in a dose-dependent manner with an IC50 value of 5.2 +/- 1.3 x 10(-10) M. Autoradiography and histological analysis showed that VIP binding sites were essentially located on fetal vascularization, especially arteries of stem villi. VIP produced a stimulatory effect on cAMP synthesis at a concentration as low as 10(-10) M. The dose-response curve was monophasic with an ED50 value of 2.9 +/- 1.6 x 10(-9) M. The specificity of the VIP effect was tested with peptides structurally related to VIP such as glucagon, secretin, gastric inhibitory polypeptide and human growth-hormone releasing factor. Only secretin at high concentrations (greater than 10(-6) M) increased cAMP production. Leu-enkephalin or insulin were ineffective. The presence of both VIP binding sites on fetal vascularization and VIP-induced adenylate cyclase activation would seem to suggest a regulatory role of the peptide on fetoplacental blood flow.
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PMID:Autoradiographic localization of vasoactive intestinal peptide (VIP) binding sites in the human term placenta. Relationship with activation of adenylate cyclase. 282 91

The rationale for the present study was to compare calcitonin and gastric inhibitory polypeptide (GIP) versus two histamine H2 receptor antagonists with respect to their potency of inhibiting parietal cell functions. Adenylate cyclase activity and acid production ([14C]aminopyrine uptake) of isolated rat parietal cells were stimulated by histamine. At 10(-7) and 10(-6) mol/l, calcitonin and GIP reduced the response to histamine by 10-20% following noncompetitive kinetics. Ranitidine and famotidine (MK 208) inhibited the response to histamine by about 50% at 10(-7)-10(-6) mol/l, and at 10(-5) mol/l abolished the histamine effect. On a molar basis famotidine turned out to be 6 times more potent than ranitidine. Both antagonists revealed competitive kinetics. Our data suggest direct inhibition of the parietal cells by the tested compounds which were shown to interfere at the adenylate cyclase cAMP system or at the histamine H2 receptor. However, compared to the histamine H2 receptor antagonists, hormonal inhibition is less pronounced and mediated by a different mechanism.
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PMID:Effects of hormones (calcitonin, GIP) and pharmacological antagonists (ranitidine and famotidine) on isolated rat parietal cells. 408 29

Specific binding sites for secretin have been identified in rat fundic membranes, using 125I-secretin. The binding was saturable, reversible, time and temperature dependent. Optimal pH for binding was around 7-7.5. Scatchard plots were compatible with the existence of 2 classes of receptors; the first class with a high affinity for secretin (apparent Kd of 4 x 10(-10) M) and a low binding capacity (150 fmol per mg membrane protein, i.e., 4,500 high affinity sites/cell) and a class of receptors with a lower affinity (Kd of 3 x 10(-9) M) and a higher binding capacity (580 fmol per mg membrane protein i.e., 17,400 sites/cell). Glucagon, gastric inhibitory polypeptide and somatostatin had no-effect on secretin binding. In contrast, VIP inhibited 125I-secretin binding and stimulated adenylate cyclase activity, in both cases at a 200-times lower potency than secretin (ID50 and Ka = 2 x 10(-7) M VIP). The properties of these secretin receptors strongly support the concept that secretin acts as a regulatory peptide on the rat gastric epithelium.
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PMID:Secretin binding sites coupled with adenylate cyclase in rat fundic membranes. 628 94

Vasoactive intestinal polypeptide (VIP), an octacosapeptide isolated from porcine duodenum and thought to have neuromodulator function in several functional systems (gastrointestinal tract, brain, lung, genital tract, heart), was recently detected in human neutrophils by radioimmunoassay. Subsequent studies demonstrated a VIP-mediated increase in lymphocyte adenylate cyclase. In this paper, VIP binding studies are presented using viable nonadherent human lymphocytes. Binding of 125I-VIP to nylon wool column-purified lymphocytes is specific, time dependent, rapid, and reversible. Bound radioactivity varies linearly with the number of cells used and is displaceable by non-iodinated VIP in a dose-dependent manner with complete displacement between 1 pM and 50 nM. Scatchard analysis of competition experiments demonstrates one class of specific binding sites with a KD of 0.47 +/- 0.23 nM and a Bmax of 24.9 +/- 7.0 pM. This Bmax represents 1700 binding sites/cell. secretin, gastric inhibitory polypeptide, and glucagon did not effectively compete with 125I-VIP for binding sites. This is the first demonstration of VIP receptors in a purified population of human lymphocytes; the data suggest that VIP may modulate lymphocyte function.
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PMID:Specific binding sites for vasoactive intestinal polypeptide on nonadherent peripheral blood lymphocytes. 630 60

Secretin, a gut-brain peptide, elicited cyclic AMP production in a clone of neuroblastoma cells derived from the C1300 mouse tumor. Adenylate cyclase (EC 4.6.1.1) in plasma membranes from these cells was stimulated by secretin greater than vasoactive intestinal peptide greater than peptide histidine isoleucine amide, but not by the related peptides glucagon, gastric inhibitory polypeptide, or human growth hormone releasing factor. Hill coefficients for stimulation approximated one and the response to submaximal peptide concentrations was additive, as expected for hormones competing for a single receptor associated with the enzyme. Binding of 125I-labeled secretin to the neuroblastoma plasma membranes was saturable, time-dependent, and reversible. The KD determined from kinetic and equilibrium binding studies approximated 1 nM. The binding site displayed marked ligand specificity that paralleled that for stimulation of adenylate cyclase. The secretin receptor was regulated by guanine nucleotides, with guanosine 5'-(beta, gamma-imino)-triphosphate being the most potent to accelerate the rate of dissociation of bound secretin. These findings demonstrate the functional association of the secretin receptor with adenylate cyclase in neuronally derived cells.
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PMID:Secretin receptors on neuroblastoma cell membranes: characterization of 125I-labeled secretin binding and association with adenylate cyclase. 632 61

Amylin inhibits glucose-induced insulin secretion in the rat pancreas. To study the mechanism by which amylin acts on the B-cell, we have investigated, in the perfused rat pancreas, the effect of synthetic rat amylin (75 pM) on insulin release elicited by secretagogues acting on the B-cell via the adenylate cyclase/cAMP system, i.e., glucagon (10 nM), gastric inhibitory polypeptide (GIP, 1 nM), forskolin (1 microM) and isobutylmethylxanthine (IBMX, 75 microM). In addition, we examined the effect of amylin on GIP-induced insulin release in pancreata from rats pretreated with pertussis toxin, an agent which inactivates certain Gi proteins coupled to adenylate cyclase. Amylin inhibited the insulin response to glucagon (approx. 70%), GIP (approx. 90%), IBMX (approx. 75%) as well as the early phase of forskolin-induced insulin output (approx. 74%). However, amylin failed to modify GIP-induced insulin release in pancreata obtained from pertussis toxin pretreated rats. These results would indicate that the inhibitory effect of amylin on insulin secretion could be, at least in part, attributed to its interfering with the adenylate cyclase/cAMP system. Furthermore, prevention of the inhibitory effect of amylin on GIP-induced insulin output by pertussis toxin pretreatment, supports the concept that amylin can inhibit insulin release via a pertussis toxin-sensitive Gi protein coupled to the adenylate cyclase system.
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PMID:Amylin (islet amyloid polypeptide) inhibition of insulin release in the perfused rat pancreas: implication of the adenylate cyclase/cAMP system. 751 1


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