Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Guanine nucleotide-binding proteins (G proteins) are critically important mediators of many signal-transduction systems. Several important sites regulating stimulus-secretion coupling and release of insulin from pancreatic beta-cells are modulated by G proteins. Gs mediates increases in intracellular cAMP associated with hormone-induced stimulation of insulin secretin. Gi mediates decreases in intracellular cAMP caused by inhibitors of insulin secretion, e.g., epinephrine, somatostatin, prostaglandin E2, and galanin. G proteins also regulate ion channels, phospholipases, and distal sites in exocytosis. Cholera and pertussis toxins irreversibly ADP ribosylate G proteins and are important tools that can be used both to manipulate G-protein-dependent modulators of insulin secretion and detect and quantify G proteins by electrophoretic techniques. The stage is set to pursue these initial observations in greater depth and ascertain whether G-protein research will provide important new insights into normal and abnormal regulation of insulin secretion.
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PMID:G proteins and modulation of insulin secretion. 190 7

The hormone-sensitive adenylyl cyclase system is under dual control, receiving both stimulatory and inhibitory inputs. Guanine nucleotide-binding regulatory proteins (G-proteins) transduce signals from cell surface receptors to effectors such as adenylyl cyclase. Hormonal stimulation is propagated via Gs, inhibition by Gi. Persistent (24-h) activation of the stimulatory pathway of adenylyl cyclase by the diterpene forskolin or the beta-adrenergic agonist isoproterenol in S49 mouse lymphoma cells enhanced the effects of somatostatin mediated via the inhibitory pathway of adenylyl cyclase. Stimulating cells with forskolin or isoproterenol for 24 h resulted in a 3-fold increase in the steady-state levels of Gi alpha 2 and a 25% decline in Gs alpha, as quantified by immunoblotting. Within 12 h of stimulation of adenylyl cyclase, Gi alpha 2 mRNA levels increased 4-fold, measured by DNA-excess solution hybridization. Gs alpha mRNA levels, in contrast, increased initially (25%), but then declined to 75% of control. In S49 variants that lack functional protein kinase A (kin-), stimulation by isoproterenol failed to alter Gi alpha 2 expression at either the protein or the mRNA levels. A 3-fold increase in relative synthesis rate and no change in the half-life (approximately 80 h) of Gi alpha 2 was observed in response to forskolin stimulation. Although Gs alpha synthesis increased (70%) modestly in response to forskolin stimulation, the half-life of Gs alpha actually decreased from 55 h in naive cells to 34 h in treated cells. Thus, the two G-protein-mediated pathways controlling adenylyl cyclase display "cross-regulation." Persistent activation of the stimulatory pathway increases Gi alpha 2 mRNA and expression. Transiently elevated Gs alpha mRNA levels are counterbalanced by a reduction in the half-life of the protein.
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PMID:Cross-regulation between G-protein-mediated pathways. Stimulation of adenylyl cyclase increases expression of the inhibitory G-protein, Gi alpha 2. 211 18

Guanine nucleotide binding (G) proteins are heterotrimers that couple a wide range of receptors to ionic channels. The coupling may be indirect, via cytoplasmic agents, or direct, as has been shown for two K+ channels and two Ca2+ channels. One example of direct G protein gating is the atrial muscarinic K+ channel K+[ACh], an inwardly rectifying K+ channel with a slope conductance of 40 pS in symmetrical isotonic K+ solutions and a mean open lifetime of 1.4 ms at potentials between -40 and -100 mV. Another is the clonal GH3 muscarinic or somatostatin K+ channel, also inwardly rectifying but with a slope conductance of 55 pS. A G protein, Gk, purified from human red blood cells (hRBC) activates K+ [ACh] channels at subpicomolar concentrations; its alpha subunit is equipotent. Except for being irreversible, their effects on gating precisely mimic physiological gating produced by muscarinic agonists. The alpha k effects are general and are similar in atria from adult guinea pig, neonatal rat, and chick embryo. The hydrophilic beta gamma from transducin has no effect while hydrophobic beta gamma from brain, hRBCs, or retina has effects at nanomolar concentrations which in our hands cannot be dissociated from detergent effects. An anti-alpha k monoclonal antibody blocks muscarinic activation, supporting the concept that the physiological mediator is the alpha subunit not the beta gamma dimer. The techniques of molecular biology are now being used to specify G protein gating. A "bacterial" alpha i-3 expressed in Escherichia coli using a pT7 expression system mimics the gating produced by hRBC alpha k.
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PMID:Roles of G proteins in coupling of receptors to ionic channels and other effector systems. 217 76

The purpose of this study was to characterize the adenylate cyclase system in a purified population of normal somatotrophs derived from rat pituitary and to determine the responses of this system to GRF, somatostatin, guanine nucleotides, and cations. Additionally, experiments were performed to evaluate the interrelationships among changes in adenylate cyclase activity, cellular cAMP levels, and GH release induced by GRF and somatostatin. The results obtained using homogenates and membrane preparations from somatotrophs included the following. 1) GRF caused guanine nucleotide-dependent concentration-related (Ka, approximately 10(-8) M) stimulation of adenylate cyclase activity. 2) Guanine nucleotides were effective in stimulating cyclase in the absence of GRF; the concentration of guanine nucleotide required for half-maximal stimulation was decreased more than 10-fold in the presence of GRF. 3) Adenylate cyclase activity increased with increasing concentrations of free Mg2+ (0.25-20 mM); activation by GRF and guanine nucleotide resulted in an approximately 7-fold increase in the enzyme's affinity for free Mg2+. 4) Somatostatin, up to 10(-6) M, did not alter basal or GRF-stimulated adenylate cyclase activity. 5) Ca2+ (0.5-11.9 microM) produced concentration-dependent inhibition of basal (up to 28%) and GRF-stimulated (up to 47%) cyclase activities; the inhibitory effect of Ca2+ was accompanied by a decrement (2- to 3-fold) in the apparent affinities of the enzyme for both GRF and guanine nucleotide. In intact somatotrophs, GRF produced concentration-dependent stimulation of GH release (Ka, approximately 6 x 10(-11) M), preceded by a marked elevation of cAMP levels. While somatostatin blocked GRF-induced GH release, the augmented cAMP levels were only slightly reduced.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Growth hormone-releasing factor-sensitive adenylate cyclase system of purified somatotrophs: effects of guanine nucleotides, somatostatin, calcium, and magnesium. 256 26

We studied the interaction between somatostatin receptors and inhibitory GTP binding protein in rat cerebrocortical membranes. Guanine nucleotides reduced [125I-Tyr1] somatostatin binding to cerebrocortical membranes in a dose-dependent manner with rank order of potency being guanyl-5'-yl-imidodiphosphate (Gpp(NH)p) greater than GTP greater than GMP. Maximum reduction of the binding to 32% of control was observed in the presence of 10(-5) M Gpp(NH)p. Scatchard analysis of the labeled somatostatin binding revealed that the decrease in the binding by Gpp(NH)p was due to the decrease in the binding affinity for somatostatin. Divalent cations, such as Mg++, Mn++, and Ca++, caused an increase in labeled somatostatin binding to membranes with the maximum binding observed at a concentration of 10, 10, 1 mM, respectively. However, Na+ decreased a labeled somatostatin binding in a dose-dependent manner, and half maximum inhibition of the binding was observed at 10 mM Na+. Moreover, Gpp(NH)p and Na+ lowered labeled somatostatin binding in an additive fashion. When cerebrocortical membranes were treated at 37 degrees C for 40 min with various concentrations of Islet-Activating-Protein (IAP), which had been preactivated with dithiothreitol, subsequent labeled somatostatin binding to the membranes was decreased in a dose-dependent manner. 30 micrograms/ml IAP treatment caused a decrease in the binding to 50% of control, which was characterized by the decreased binding affinity without a significant change in the binding capacity. Furthermore, exposure of IAP plus NAD to cerebrocortical membranes caused ADP-ribosylation of a membrane protein with Mr = 41,000 on autoradiogram. Such an IAP treatment of cerebrocortical membranes abolished the inhibitory effect of somatostatin on vasoactive intestinal peptide-stimulated increase in adenylate cyclase activity. These results suggest that somatostatin receptors in the brain couple to inhibitory GTP binding protein, which mediates adenylate cyclase inhibition by somatostatin.
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PMID:[Coupling of inhibitory GTP binding protein to somatostatin receptors on rat cerebrocortical membranes]. 257 11

To investigate whether somatostatin receptors couple to guanine nucleotide inhibitory protein, Ni, on rat pancreatic acinar membranes, the effects of guanine nucleotide analogs or pretreatment of acini with islet activating protein (IAP), pertussis toxin on labeled somatostatin binding were examined. Guanine nucleotides reduced labeled somatostatin binding to acinar membranes up to 80%, with rank order of potency being guanyl-5'-yl imidodiphosphate (Gpp(NH)p) greater than GTP greater than GDP greater than GMP. Scatchard analysis of the labeled somatostatin binding revealed that the decrease in somatostatin binding caused by Gpp(NH)p was due to the decrease in the maximum binding capacity without a significant change in the binding affinity. The inhibitory effect of Gpp(NH)p was partially abolished in the absence of Mg2+ and Na+ also reduced labeled somatostatin binding. Furthermore, inhibitory effects of 100mM Na+ and Gpp(NH)p were additive in reducing labeled somatostatin binding. A half maximal inhibitory concentration of Gpp(NH)p was decreased to 10(-7)M in the presence of 100mM Na+ and 5mM Mg2+ as compared to 10(-6)M in the presence of 5mM Mg2+ alone. Results therefore suggest that Gpp(NH)p requires Mg2+ for Ni activation and Na+ increases sensitivity of Ni to guanine nucleotide analogs. When pancreatic acini were treated for 4 hours with varying concentrations of IAP, which has been shown to uncouple Ni-mediated communication between inhibitory receptors and adenylate cyclase catalytic unit, subsequent labeled somatostatin binding to the acinar membranes was decreased in a dose dependent manner. These results indicate that somatostatin receptors on pancreatic acinar membranes couple to guanine nucleotide inhibitory protein, Ni and thus somatostatin probably functions in the pancreas to regulate intracellular signal transduction via Ni.
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PMID:[Coupling of guanine nucleotide inhibitory protein to somatostatin receptors on rat pancreatic acinar membranes]. 282 26

Guanine nucleotides and pertussis toxin were used to investigate whether somatostatin receptors interact with the guanine nucleotide inhibitory protein (Ni) on pancreatic acinar membranes in the rat. Guanine nucleotides reduced 125I-[Tyr1]somatostatin binding to acinar membranes up to 80%, with rank order of potency being 5'-guanylyl imidodiphosphate [Gpp(NH)p] greater than GTP greater than GDP greater than GMP. Scatchard analysis revealed that the decrease in somatostatin binding caused by Gpp(NH)p was due to the decrease in the maximum binding capacity without a significant change in the binding affinity. The inhibitory effect of Gpp(NH)p was partially abolished in the absence of Mg2+. When pancreatic acini were treated with 1 microgram/ml pertussis toxin for 4 h, subsequent 125I-[Tyr1]somatostatin binding to acinar membranes was reduced. Gpp(NH)p further decreased somatostatin binding to islet-activating protein (IAP)-treated acinar membranes. Pertussis toxin treatment also abolished the inhibitory effect of somatostatin on vasoactive intestinal peptide-stimulated increase in cellular content of adenosine 3',5'-cyclic monophosphate (cAMP) in the acini. Furthermore, exposure of acini to IAP caused ADP ribosylation of a membrane protein with Mr = 41,000 in parallel to the inhibition of cAMP accumulation in acini. The present results suggest, therefore, that 1) somatostatin probably functions in the pancreas to regulate adenylate cyclase enzyme system via Ni, 2) the extent of modification of Ni is correlated with the ability of somatostatin to inhibit cAMP accumulation in acini, and 3) guanine nucleotides also inhibit somatostatin binding to its receptor.
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PMID:Coupling of guanine nucleotide inhibitory protein to somatostatin receptors on pancreatic acinar membranes. 288 15

Specific [125I]-Iodo-NTyr somatostatin binding sites are present in adenohypophyseal and cerebral cortical membranes. Guanine nucleotides reduce the maximal binding capacity of adenohypophyseal binding sites without significantly affecting their apparent affinity. In pituitary as well as in cortex, GTP is the most potent nucleotide followed by GDP and guanylyl imidodiphosphate (GMP-PNP). The effect appears specific of guanine nucleotides since ATP, ADP and AMP are inactive on [125I]-Iodo-NTyr somatostatin binding. These results, showing the nucleotide sensitivity of [125I]-Iodo-NTyr somatostatin binding in pituitary and cerebral cortex, are compatible with a coupling of somatostatin receptors with adenylate cyclase.
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PMID:Guanine nucleotide sensitivity of [125I]-Iodo NTyr somatostatin binding in rat adenohypophysis and cerebral cortex. 613 1