Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: EC:4.6.1.1 (adenylate cyclase)
 19,190 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

A sequence motif of 20 amino acid residues within the C-terminal portion of the rat somatostatin receptor subtype 4 (SSTR4) has been shown to prevent rapid agonist-dependent receptor internalization in transfected human embryonic kidney (HEK) cells. Molecular dissection of this motif by biochemical ligand-binding assays revealed that the block was released by mutating a single residue (threonine 331) to an alanine. These data are in line with confocal microscopic analysis of cultured primary neurons microinjected with cDNA constructs encoding either SSTR4 or the mutant T331A. Immunocytochemical analysis showed that the mutant receptor, but not SSTR4, was internalized. However, internalized T331A was not recycled to the cell surface, suggesting that it lacks sequence elements that determine intracellular sorting after endocytosis. Neither wildtype SSTR nor the mutant T331A exhibited functional desensitization when assayed for their ability to inhibit adenylate cyclase. In agreement with this, the wt receptor and its mutant were not phosphorylated in response to agonist treatment. Lack of desensitization of SSTR4 has been electrophysiologically verified by coexpressing the receptor with a G-protein-gated, inwardly rectifying potassium channel in Xenopus oocytes. A strong somatostatin 14 (SST14)-activated inward potassium current was observed that was long-lasting and which decayed only slowly after washout of the agonist. This is in contrast to another somatostatin receptor subtype, SSTR3, which mediates rapidly desensitizing currents. Binding experiments on HEK cells transfected with either SSTR3 or 4 indicated that this difference is not attributable to slow dissociation of the agonist from the receptor, suggesting that SSTR4 mediates long-lasting signalling, a property which may be relevant for clinical therapy.
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PMID:Rat somatostatin receptor subtype 4 can be made sensitive to agonist-induced internalization by mutation of a single threonine (residue 331). 980 48

Somatostatin agonists are rapidly and efficiently internalized with the somatostatin sst2 receptor. The fate of internalized agonists and receptors is of critical importance because the rate of ligand recycling back to the cell surface can limit the amount of radioligand accumulated inside the cells, whereas receptor recycling might be of vital importance in providing the cell surface with dephosphorylated, resensitized receptors. Furthermore the accumulation of radioisotope-conjugated somatostatin agonists inside cancer cells resulting from receptor-mediated internalization has been used as a treatment for cancers that overexpress somatostatin receptors. In the present study, radio-iodinated agonists at the sst2 somatostatin receptor were employed to allow quantitative analysis of the fate of endocytosed agonist. After endocytosis, recycling back to the cell surface was the main pathway for both 125I-labelled somatostatin-14 (SRIF-14) and the more stable agonist 125I-labelled cyclo(N-Me-Ala-Tyr-d-Trp-Lys-Abu-Phe) (BIM-23027; Abu stands for aminobutyric acid), accounting for 75-85% of internalized ligand when re-endocytosis of radioligand was prevented. We have shown that there is a dynamic cycling of both somatostatin agonist ligands and receptors between the cell surface and internal compartments both during agonist treatment and after surface-bound agonist has been removed, unless steps are taken to prevent the re-activation of receptors by recycled agonist. Internalization leads to increased degradation of 125I-labelled SRIF-14 but not 125I-labelled BIM-23027. The concentration of recycled agonist accumulating in the extracellular medium was sufficient to re-activate the receptor, as measured both by the inhibition of forskolin-stimulated adenylate cyclase and the recovery of surface receptor number after internalization.
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PMID:Fates of endocytosed somatostatin sst2 receptors and associated agonists. 982 Aug 3

The inhibitory effect of the neuropeptide somatostatin on the expression of growth hormone was measured by quantitative polymerase chain reaction in the pituitary cell line AtT-20. We demonstrate that this effect is dependent on the internalization of somatostatin-receptor complexes and that it is totally independent from the peptide-induced inhibition of adenylate cyclase. Indeed, the inhibitory effect of the peptide on growth hormone mRNA levels was totally insensitive to pertussis toxin treatment but was totally abolished under conditions which block somatostatin receptor internalization. Comparative confocal microscopic imaging of fluorescent somatostatin sequestration and fluorescence immunolabeling of sst1, sst2A, and sst5 receptors suggests that sst2A is most probably responsible of the inhibitory effect of somatostatin on growth hormone expression.
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PMID:Receptor-mediated internalization is critical for the inhibition of the expression of growth hormone by somatostatin in the pituitary cell line AtT-20. 1038 39

The five human somatostatin receptor subtypes (hsst1-5) were stably expressed in CCL39 cells (Chinese hamster lung fibroblast cells) to study the inhibition of forskolin-stimulated adenylate cyclase (FSAC) activity induced by somatostatin (somatotropin release inhibiting factor, SRIF), cortistatin (CST) and SRIF peptide analogues. Inhibition of FSAC was observed with all five receptors, although the maximal effects produced by SRIF14 varied from around 40% (sst1, sst2, sst4) to 67% (sst3, sst5) reflecting to some extent differences in receptor density (Bmax values published in accompanying paper, this journal). SRIF28 was slightly more potent than SRIF14 to inhibit FSAC at all five receptors, although the potency of the natural peptides SRIF14, SRIF28 and CST17 was generally similar with pEC50-values ranging from 7.5 to 8.7 depending on receptor and peptide. At SRIF1 receptors (sst2, sst3, sst5) most of the peptide analogues displayed full agonism (with some exceptions e.g. BIM 23056 at sst1-3 and sst5 receptors, and L362,855 and cycloantagonist SA at sst3 receptors), whereas at SRIF2 receptors these analogues tended to behave as partial agonists. BIM 23056 was an antagonist at sst3 receptors (antagonist binding constant pKB = 6.33), but not at other receptors. The AC inhibition profiles of sst1-5 receptors were compared with the different radioligand binding profiles as well as with [35S]guanosine 5'-O-(3-thiotriphosphate) ([35S]GTPgammaS) binding profile for sst2-5 receptors. High correlations were observed between FSAC inhibition, radioligand binding and [35S]GTPgammaS binding profiles at sst3, sst4 and sst5 receptors; by contrast, correlation coefficients at sst1 and sst2 receptors were low, and the binding profiles of [125I][Tyr10]CST14 correlated poorly. In line with these findings, the FSAC inhibition and [35S]GTPgammaS binding correlated poorly at sst2 receptors (sst1 receptors show no significant induction of [35S]GTPgammaS binding). The apparent lack of, or only weak, relationship between FSAC, radioligand or [35S]GTPgammaS binding observed for some SRIF receptors suggests that different active states may exist for these receptors, which may favour one transduction cascade over others.
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PMID:Characterisation of human recombinant somatostatin receptors. 3. Modulation of adenylate cyclase activity. 1059 90

Total [3H]phosphoinositide (IPx) accumulation, a measure of phospholipase C (PLC) activity, induced by somatostatin (somatotropin release-inhibiting factor, SRIF) and cortistatin (CST) analogues was studied at human somatostatin receptor subtypes 1-5 (hsst1-5) recombinantly expressed in CCL39 (Chinese hamster lung fibroblast) cells. SRIF14 (10 microM) stimulated total [3H]-IPx production 200% and 1070% over basal levels, and increased intracellular Ca2+ ([Ca2+]i) 1600% and 2790%, in cells expressing hsst3 and hsst5 receptors, respectively. The SRIF14-stimulated IPx production was partly blocked by 100 ng/ml pertussis toxin (PTX) (30% and 15% inhibition, respectively). At hsst1, hsst2, and hsst4 receptors, only weak or no stimulation of PLC activity was found (Emax = 114%, 122%, and 102%, respectively). Consequently, hsst3 and hsst5 receptors were subjected to more detailed studies to establish pharmacological profiles of PLC stimulation. At hsst3 receptors, the relative efficacies of most ligands were in the same range (maximum response Emax = 218-267%). At hsst5 receptors Emax varied over a broad range, seglitide, CST17, SRIF28 displaying almost full agonism compared to SRIF14, whereas octreotide and BIM 23052 showed very low partial agonism. BIM 23056 behaved as an antagonist on SRIF14-induced total [3H]-IPx accumulation with a pKB (negative logarithm of antagonist binding constant) of 6.74 at hsst3 receptors, and of 6.94 at hsst5 receptors. The putative cycloantagonist SA showed weak antagonist activity on SRIF14-induced total [3H]-IPx levels at hsst3 (pKB = 5.85), but not at hsst5 receptors. The [3H]-IPx accumulation profiles at sst3/sst5 receptors were compared to their respective radioligand binding ([125I]LTT-SRIF28, [125I][Tyr10]CST14, [125I]CGP 23996, [125I][Tyr3]octreotide binding), to [35S]GTPgammaS binding, and to forskolin-stimulated adenylate cyclase (FSAC) inhibition profiles determined previously in CCL39 cells. The different affinity profiles correlated relatively well at both receptor subtypes with PLC activation (sst3: r = 0.90-0.97; sst5: r = 0.80-0.87). However, [35S]GTPgammaS binding correlated only minimally with stimulation of [3H]-IPx levels at sst5 receptors (r = 0.59), but rather well at sst3 receptors (r = 0.80). A moderate correlation was also observed between inhibition of FSAC activity and stimulation of PLC activity for hsst3 and hsst5 receptors with correlation coefficients of 0.85 and 0.70, respectively. In summary, most SRIF analogues behave as full agonists at hsst3 receptors and agonist-induced phosphoinositide turnover correlates well with radioligand binding, [35S]GTPgammaS binding and inhibition of adenylate cyclase activity, all measured in CCL39 cells. By contrast, at hsst5 receptors, most SRIF analogues behave as intermediate or very low partial agonists (although receptor levels are comparatively high, 7000 vs. 400 fmol/mg), and the agonist-induced phosphoinositide turnover correlates rather poorly with radioligand binding, [35S]GTPgammaS binding or inhibition of adenylate cyclase activity, all measured in the same cell line. Agonist-induced phosphoinositide turnover, [35S]GTPgammaS binding and inhibition of adenylate cyclase activity, show differences both in the rank orders of potency and relative efficacy at hsst3 and markedly at hsst5 receptors, suggesting either that PLC activity is functionally irrelevant or, more probably, that agonist-dependent receptor trafficking is taking place in CCL39 cells.
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PMID:Characterisation of human recombinant somatostatin receptors. 4. Modulation of phospholipase C activity. 1059 91

Somatostatin exerts its actions through interaction with specific heptahelical G-protein coupled plasma membrane receptors. Five different somatostatin receptor subtypes have been cloned in man. Different receptor subtypes are coupled to different intracellular transmission cascades in a cell type-dependent manner. In general, somatostatin affects cell proliferation either directly: reducing mitogen-activated protein kinase cascade, activating phosphoproteinphosphatase, stimulating EGF-receptors and adenylate cyclase activity; or indirectly reducing the release of autocrine- and/or paracrine-acting growth factors. Somatostatin can exert cytotoxic (G1 phase cell arrest) or cytostatic (apoptosis induction) effects, also depending on the receptor subtype expressed on the target cell. In gastroenteropancreatic neuroendocrine tumours predominance of sst1 and sst2 with a lesser extent of sst3 and sst5 subtype receptors have been demonstrated using sensitive methods. Synthetic analogues with specific decreasing affinity for sst2 > sst5 > sst3 receptor subtypes have been used as antiproliferative drug in the treatment of gastroenteropancreatic tumours. These compounds (octreotide, lanreotide) resulted in a modest growth-inhibition activity either in functioning or in non-functioning tumours. Combination of somatostatin analogues with alpha-interferon produced a more pronounced antiproliferative effect overcoming therapy resistance developed to either single drug. Finally, the development of radio-labelled somatostatin analogue scintigraphy has contributed to gastroenteropancreatic-tumours lesion localization and future more detailed knowledge of somatostatin receptor mechanisms could improve both the diagnostic and therapeutic application of somatostatin analogues.
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PMID:Therapeutic and diagnostic implications of the somatostatin system in gastroenteropancreatic neuroendocrine tumour disease. 1060 18

Over the past decade, antiproliferative effects of somatostatin and analogs have been reported in many somatostatin receptor-positive normal and tumor cell types. Regarding the molecular mechanisms involved, somatostatin or analogs mediate their action through both indirect and direct effects. Somatostatin acts through five somatostatin receptors (SSTR1-5) which are variably expressed in normal and tumor cells. These receptors regulate a variety of signal transduction pathways including inhibition of adenylate cyclase, regulation of ion channels, regulation of serine/threonine and tyrosine kinases and phosphatases. This review focuses on recent advances in biological mechanisms involved in the antineoplastic activity of somatostatin and analogs.
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PMID:Antiproliferative effect of somatostatin and analogs. 1127

Four linear beta(2)/beta(3)-di- and alpha/beta(3)-tetrapeptides (1-4) were investigated as somatostatin sst(4) receptor agonists on recombinant human and mouse somatostatin receptors. Human somatostatin receptor subtypes 1-5 (sst(1-5)), and mouse somatostatin receptor subtypes 1,3,4 and 5, were characterised using the agonist radioligands [(125)I]LTT-SRIF-28, [(125)I][Tyr(10)]CST(14) and [(125)I]CGP 23996 in stably transfected Chinese hamster lung fibroblast (CCL39) cells. The peptides bound selectively to sst(4) receptors with nanomolar affinity (pK(d)=5.4-7.8). The peptides were investigated on second messenger systems both as agonists, and as antagonists to SRIF-14-mediated effects in CCL39 cells expressing mouse sst(4 )receptors, via measurement of inhibition of forskolin-stimulated adenylate cyclase activity, and stimulation of luciferase expression. The peptides showed full agonism or pronounced partial agonism (40 to 100% relative intrinsic activity) in both inhibition of forskolin-stimulated adenylate cyclase activity (pEC(50)=5.5-6.8), and luciferase expression (pEC(50)=5.5-6.5). The agonist potential was confirmed since antagonism was very difficult to establish. The data show that beta(2)/beta(3)-di- and alpha/beta(3)-tetrapeptide derivatives have agonist potential at recombinant somatostatin sst(4) receptors. Therefore, they may be used to elucidate physiological and biochemical effects mediated by sst(4), and may also have potential as therapeutic agents.
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PMID:Beta(2)/beta(3)-di- and alpha/beta(3)-tetrapeptide derivatives as potent agonists at somatostatin sst(4) receptors. 1259 49

The availability of antagonist ligands for somatostatin receptors is very limited, with those that are available often displaying agonist properties or limited receptor subtype selectivity. Hay et al. [Bioorg. Med. Chem. Lett. 11 (2001) 2731] recently described the development of small-molecule somatostatin receptor subtype 2 (sst(2)) selective compounds. This study investigates the binding affinity and functional characteristics of two of those antagonists (2 and 3) and the agonist compound, from which they were derived (1). In radioligand binding studies using the agonist radioligands [125I][Tyr(11)]SRIF-14 (Ala-Gly-c[Cys-Lys-Asn-Phe-Phe-Trp-Lys-Thr-(125I-Tyr)-Thr-Ser-Cys]-OH), [125I]LTT-SRIF-28 ([Leu(8),DTrp(22),125I-Tyr(25)]SRIF-28; Ser-Ala-Asn-Ser-Asn-Pro-Ala-Leu-Ala-Pro-Arg-Glu-Arg-Lys-Ala-Gly-c[Cys-Lys-Asn-Phe-Phe-DTrp-Lys-Thr-(125I-Tyr)-Thr-Ser-Cys]-OH), [125I]CGP 23996 (c[Lys-Asu-Phe-Phe-Trp-Lys-Thr-(125I-Tyr)-Thr-Ser]), [125I][Tyr(3)]octreotide (DPhe-c[Cys-(125I-Tyr)-DTrp-Lys-Thr-Cys]-Thr-OH) and [125I][Tyr(10)]cortistatin-14 (Pro-c[Cys-Lys-Asn-Phe-Phe-Trp-Lys-Thr-(125I-Tyr)-Ser-Ser-Cys]-Lys) at human recombinant somatostatin receptors expressed in Chinese hamster lung fibroblast (CCL39) cells and native rat cortex, the compounds bound with high affinity (pK(d) 6.8-9.7) and selectivity to human sst(2) receptors. Some affinity was also observed for sst(5) labelled by [125I][Tyr(3)]octreotide and [125I]CGP 23996. In functional studies at human sst(2) receptors expressed in Chinese hamster ovary (CHO) cells, both the agonist 1 and the two putative antagonists 2 and 3 concentration dependently inhibited forskolin-stimulated adenylate cyclase and stimulated luciferase reporter gene expression, with similar efficacy to the natural ligand somatotropin release inhibiting factor (SRIF)-14. Compound 1 had similar potency to SRIF-14, which was in the nanomolar range, whereas 2 and 3 were 10-100-fold less potent. The intrinsic activity of 2 and 3 was too high to allow antagonist studies to be carried out. In conclusion, in contrast to previous findings, all three compounds are potent agonists at recombinant human sst(2) receptors.
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PMID:Agonist properties of putative small-molecule somatostatin sst2 receptor-selective antagonists. 1268 32

Somatostatin and its analogue octreotide have been used for two decades to treat oesophageal variceal haemorrhage. The drug was introduced because of its capacity to decrease portal venous pressure without major side effects. In clinical trials assessing the efficacy of somatostatin and long-acting analogues in arresting variceal haemorrhage, conflicting results have been obtained. Furthermore, in haemodynamic studies evaluating the effects of somatostatin and analogues in patients with cirrhosis, divergent effects were observed. The main reason for these differences is probably related to different affinities of the drugs for different somatostatin receptor subtypes. The effects of somatostatin and analogues are mediated via five different G-protein coupled receptors (somatostatin receptor subtypes 1-5), which regulate the activity of ion channels (Ca2+, K+, Na+ and Cl-) and enzymes (adenyl cyclase, phospholipase C, phospholipase A2, phosphoinositide 3-kinase and guanylate cyclase) responsible for the synthesis or degradation of intracellular second messengers including cyclic AMP, inositol 1,4,5-trisphosphate, diacylglycerol and cyclic GMP. Despite universal use of somatostatin, the cellular and biochemical mechanisms of its effects in portal hypertension are relatively poorly studied and remain incompletely understood. In this review, we summarize relevant signal transduction of somatostatin and analogues, the haemodynamic effects of the drugs and the possible mechanisms by which these effects are mediated.
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PMID:Pharmacological rationale for the use of somatostatin and analogues in portal hypertension. 1294 Sep 22


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