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: UNIPROT:P61278 (somatostatin)
22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The gene encoding a novel mouse somatostatin receptor termed mSSTR3 was isolated and characterized. The sequence of mSSTR3 shows 46 and 47% identity with mSSTR1 and mSSTR2, respectively. mSSTR3 binds somatostatin-14 and somatostatin-28 with high affinity, but shows very low affinity for the somatostatin analogs MK-678 and SMS-201-995. In addition, mSSTR3 is coupled to pertussis toxin-sensitive G proteins and mediates somatostatin inhibition of forskolin-stimulated and dopamine D1 receptor-stimulated cAMP formation, indicating that it is coupled to adenylylcyclase. The pharmacological properties of mSSTR3 and its ability to couple with adenylylcyclase distinguish SSTR3 from the other cloned somatostatin receptors and indicates that it mediates biological functions different from SSTR1 or SSTR2. In situ hybridization indicates that SSTR3 mRNA is widely distributed in the mouse brain, and its expression in the nucleus of the lateral olfactory tract and in the piriform cortex, the primary olfactory cortex in the rodent brain, suggests that SSTR3 may participate in the processing and modulation of primary sensory information.
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PMID:Cloning of a novel somatostatin receptor, SSTR3, coupled to adenylylcyclase. 132 99

We previously reported the cloning of two distinct somatostatin receptor (SSTR) subtypes, SSTR1 and SSTR2. Although both SSTR1 and SSTR2 bound somatostatin specifically and with high affinity, neither was coupled to adenylyl cyclase, a major cellular effector of somatostatin's actions. Here we report the cloning and functional characterization of a third member of the SSTR family. Human SSTR3 is a protein of 418 amino acids and has 45% and 46% identity with human SSTR1 and SSTR2, respectively. RNA blotting studies showed that SSTR3 mRNA could be readily detected in brain and pancreatic islets. The pharmacological properties of human SSTR3 were characterized by transiently expressing the human SSTR3 gene in COS-1 cells. Membranes from cells expressing human SSTR3 bound the somatostatin agonist [125I]CGP 23996 specifically and with high affinity, with a rank order of potency of somatostatin-28 = CGP 23996 > somatostatin-14 > SMS-201-995. Studies using cells transiently coexpressing the human dopamine D1 receptor and human SSTR3 showed that somatostatin was able to inhibit dopamine-stimulated cAMP formation in a dose-dependent manner, indicating that SSTR3 was functionally coupled to adenylyl cyclase. These results indicate that the diverse biological effects of somatostatin are mediated by a family of receptor with distinct, but overlapping, tissue distributions, unique pharmacological properties, and potentially different functions.
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PMID:Somatostatin receptors, an expanding gene family: cloning and functional characterization of human SSTR3, a protein coupled to adenylyl cyclase. 133 45

Somatostatin (SRIF) induces its diverse physiological actions through interactions with different receptor subtypes. Multiple SRIF receptor subtypes have recently been cloned. To analyze the physical properties of receptor subtype SSTR2, two different peptide-directed antibodies were generated against SSTR2. Antibody "2e3," directed against the peptide SSCTINWPGESGAWYT (residues 191-206), corresponding to a region in the predicted third extracellular domain of mouse SSTR2, and antibody "2i4," directed against the peptide SGTEDGERSDS (residues 333-343) from the predicted cytoplasmic tail of mouse SSTR2, were developed. In Chinese hamster ovary (CHO) cells stably expressing the mouse SSTR2 gene (CHOB), the antibody 2e3 recognized specifically a protein of 93-kDa protein by immunoblotting. No specific immunoreactivity was detected by 2e3 in nontransfected CHO cells or CHO cells stably expressing vector alone or human SSTR1 or mouse SSTR3 genes. The antibody 2i4 specifically immunoprecipitated SSTR2 solubilized from CHOB cells that could be labeled with the SSTR2-specific ligand 125I-MK-678. Furthermore, both 2e3 and 2i4 specifically immunoprecipitated 93-kDa [35S]methionine-labeled proteins from CHOB cells, indicating that they recognize the same proteins. In contrast to studies in CHOB cells, immunoblotting studies showed that 2e3 detected specifically a single 148-kDa protein from different regions of the rat brain that have previously been shown to express high levels of SSTR2 mRNA and SRIF receptors with high affinity for 125I-MK-678. In contrast, no immunoreactivity was detected in rat kidney, liver, or lung, which do not express SSTR2. No 93-kDa protein was detected specifically in the rat brain.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Immunological detection of isoforms of the somatostatin receptor subtype, SSTR2. 751 95

The expression of three somatostatin receptor subtypes, SSTR3, SSTR4, and SSTR5, was evaluated in 33 pituitary tumor specimens. SSTR3 expression was studied by reverse transcription coupled to polymerase chain reaction, whereas SSTR4 and SSTR5 expression was determined by ribonuclease protection assay. SSTR3 was expressed in 6 of 7 GH-secreting tumors, all 8 clinically nonfunctioning tumors, all 3 prolactinomas, and 1 of 2 ACTH-secreting tumors tested. Eight nonfunctioning adenomas had undetectable messenger ribonucleic acid levels of SSTR4, and only 1 of them expressed SSTR5. SSTR4 expression was also undetectable in 11 GH-secreting tumors, 3 prolactinomas, and 1 ACTH-secreting tumor tested. In contrast, SSTR5 was highly expressed in 10 of 11 GH-secreting adenomas and 1 prolactinoma. Two prolactinomas and 1 ACTH-secreting tumor had low levels of expression of SSTR5. The widespread pituitary adenoma expression of SSTR3, regardless of hormonal secretory type, suggests that SSTR3 might be involved in a somatostatin action(s) other than GH or TSH regulation. SSTR5 is expressed predominantly in mammosomatotroph-derived tumors, suggesting that this receptor subtype may be an important determinant of GH secretion in acromegaly.
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PMID:Expression of three somatostatin receptor subtypes in pituitary adenomas: evidence for preferential SSTR5 expression in the mammosomatotroph lineage. 752 50

In a previous study, we found that morphine decreases, in a dose-dependent manner, the cell growth of T47D human breast cancer cells, despite the lack of mu opioid receptors and an interaction of morphine with other opioid sites. We have therefore examined a possible interaction of morphine with other membrane receptor systems of the cell. The present study describes for the first time an interaction between mu-acting opioid drugs and the somatostatinergic system. We have found that [125I]Tyr11-somatostatin binds with high affinity to T47D cells. Analysis of the binding data showed the presence of two components: one with high affinity but low capacity (Kd, 0.145 nM; 1450 sites/cell), and another of lower affinity but higher capacity (Kd, 1.192 nM; 11920 sites/cell). Somatostatin-14 and somatostatin-28 showed multiphasic displacement curves, indicating heterogeneity of binding sites. The latter was confirmed by reverse transcription-PCR, which revealed the existence of the somatostatin receptor subtypes 2 and 3 (SSTR2 and SSTR3), with a relative mRNA concentration of 85 and 15%, respectively. Morphine and the morphinomimetic peptide morphiceptine (Tyr-Pro-Phe-Pro-NH2) displace somatostatin from its binding sites. Further analysis indicated that mu-acting opioids interact with the SSTR2 receptor subtype.
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PMID:Morphine cross-reacts with somatostatin receptor SSTR2 in the T47D human breast cancer cell line and decreases cell growth. 758 46

Recently five somatostatin receptor subtypes (SSTR) have been cloned, allowing the development of highly specific selective agonists for these SSTR. The present study was undertaken to determine which SSTR is responsible for the inhibitory effect of somatostatin on islet hormone secretion. Single-pass perfusion of four agonists was performed in pancreata obtained from four cadaveric organ donors using a modified Krebs-media with 3.9 mM glucose. Sequential 10-min specific receptor agonist infusions (5 ng/ml) of DC32-87 (SSTR2), DC25-12 (SSTR3), DC32-97 (SSTR3), or DC32-92 (SSTR5) were performed in random order separated by 10-min basal periods. Infusion of SSTR2 agonist into the isolated perfused human pancreas resulted in a significant inhibition of insulin and C-peptide secretion (insulin = -1468 +/- 480 pM, P < 0.05, and C-peptide = -2328 +/- 437 pM, P < 0.05) but not islet amyloid polypeptide or somatostatin. These results suggest that the inhibitory effect of somatostatin on B-cell secretion is mediated through the subtype-2 receptor within the human islet.
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PMID:Somatostatin inhibits B-cell secretion via a subtype-2 somatostatin receptor in the isolated perfused human pancreas. 763 Jan 42

Rat AR42J pancreas cells, which express somatostatin-SSTR2 type receptors, responded to SSTR2-selective somatostatin (SRIF) agonist ligands with a dose-dependent increase in intracellular Ca2+. In addition to SRIF-14 and SRIF-28, the most potent SRIF peptides were the cyclic octapeptides, BIM-23014C, BIM-23023, SMS 201-995, and the cyclic hexapeptides, MK-678 and BIM-23027. The SSTR3 and SSTR5-selective ligands, BIM-23056 and BIM-23052, were inactive and weakly active, respectively. None of the SRIF peptides stimulated inositol phosphate turnover, indicating that Ca2+ mobilization was independent of phospholipase C activation. Incubation in calcium-free medium abolished the increase in intracellular Ca2+. These results indicate that activation of SSTR2 receptors in AR42J cells opens cell-surface calcium channels.
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PMID:Somatostatin (SSTR2) receptors mediate phospholipase C-independent Ca2+ mobilization in rat AR42J pancreas cells. 766 56

Somatostatin (SRIF) exerts its diverse biological effects through a family of membrane receptors. In addition to inhibiting GH secretion, SRIF has antiproliferative effects and has been used clinically in the treatment of pituitary tumors. SRIF receptor (SSTR) expression has recently been identified in pituitary adenomas, and it is unknown whether differential expression of SSTR subtypes predicts clinical responses to SRIF analogs. We therefore determined which SSTR subtype messenger RNAs (mRNAs) are expressed in pituitary adenoma phenotypes and in normal human pituitary tissue using reverse transcriptase-polymerase chain reaction and tested whether expression of specific SSTR subtype mRNA is necessary for SRIF inhibition of GH secretion in human somatotroph adenomas in vitro. Expression of SSTR subtypes 1, 2, and 5 mRNA was identified in all pituitary adenoma types and normal pituitary tissue. In contrast, SSTR3 mRNA was detected in only one somatotroph adenoma as well as in control insulinoma tissue, a tissue known to express SSTR3 mRNA, and was not detected in normal pituitary tissue. SSTR4 mRNA was not detected in any human pituitary tissue. To determine whether specific SSTR subtype mRNA expression is required for SRIF inhibition of GH secretion, five somatotroph adenomas were treated with 10(-7) mol/L SRIF in vitro, and significant inhibition of GH release occurred in all adenomas. All five tumors expressed SSTR2 mRNA and SSTR5 mRNA, and three expressed SSTR1 mRNA. The absence of SSTR1 mRNA expression did not affect the ability of SRIF to suppress GH secretion. We conclude that: 1) human pituitary adenomas and normal pituitary express multiple SSTR gene transcripts; 2) SSTR5 mRNA, which has not been reported in other human endocrine tumor types, is expressed in neoplastic and normal pituitary tissue; and 3) SSTR2 mRNA, SSTR5 mRNA, and variable SSTR1 mRNA are expressed in GH-secreting tumors, which are responsive to SRIF in vitro. Further understanding of SSTR gene expression in pituitary adenomas will facilitate our understanding of the pathogenetic mechanisms of tumorigenesis and may provide a rationale for the use of specific SRIF analogs for clinical application.
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PMID:Somatostatin receptor subtype gene expression in pituitary adenomas. 771 15

Previous functional studies show that somatostatin (SS) interacts with specific receptors to inhibit relaxation in gastric smooth muscle cells. There are no ligand binding studies, and it is unknown which of the five subtypes of SS receptors mediates the action. Dispersed gastric smooth muscle cells from guinea pig bound both 125I-labeled SS-14 and 125I-D-Phe-Cys-Tyr-D-Trp-Lys-Thr-Cys-Nal-NH2 (where Nal indicates N-naphthylalanine) (cyclo-SS-8), a synthetic peptidase-resistant octapeptide SS analogue. SS-28 and SS-14, cyclo-SS-8, and SS analogue D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr-ol [SMS-(201-995) (octreotide)] inhibited 125I-cyclo-SS-8 binding with relative potencies of SS-28 = cyclo-SS-8 = SMS-(201-995) (octreotide), and the binding was not affected by the addition of protease inhibitors. SS-14 caused inhibition only in the presence of protease inhibitors. Ligand analysis demonstrated a two-binding-site model. Analysis of the relationship between biological function and binding suggested the high-affinity sites mediated the relaxant action of SS. 5'-Guanylylimidodiphosphate [Gpp-(NH)p] inhibited binding by reducing the affinity of the high-affinity site. Six SS-8 analogues that distinguish SS subtypes showed that 125I-SS-14 bound to somatostatin receptor subtype 3 (SSTR3). The results demonstrated that gastric smooth muscle cells possess distinct receptors for SS of the SSTR3 subtype. Occupation of these sites inhibits relaxation in gastric smooth muscle cells. Modulation between the high- and low- affinity binding states of SSTR3 is at least partially mediated by activation of guanine nucleotide regulatory proteins.
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PMID:Somatostatin receptor subtype 3 mediates the inhibitory action of somatostatin on gastric smooth muscle cells. 776 57

The effect of somatostatin (SS) on adrenocorticotrophic hormone (ACTH) secretion from COR-L103 cells derived from a human small cell lung carcinoma was examined. SS at 1 microM had no effect on ACTH secretion from the cells on either short-term or long-term incubation. Studies by the reverse transcription-polymerase chain reaction (RT-PCR) showed that mRNA transcripts of the somatostatin receptor (SSTR) 2, SSTR3 and SSTR4 genes were present in COR-L103 cells. Extra bands were obtained by PCR-single strand conformation polymorphism (SSCP) analysis of the SSTR2 gene Sequence analysis of the SSTR2 gene demonstrated one point mutation in codon 188 of TGG for tryptophan to TGA for a stop codon causing loss of 182 C-terminal amino acid residues of SSTR2. The nucleotide sequences of the SSTR3 and SSTR4 genes in COR-L103 cells were normal. Binding studies using 125I-Tyr11-SS-14 showed specific affinity binding sites on COR-L103 cells and mouse pituitary tumor AtT-20 cells. Octreotide acetate suppressed the binding of 125I-Tyr11-SS-14 to these two cell lines, but the Kd of COR-L103 cells (160 nM) was 60-fold higher than that of AtT-20 cells (2.6 nM). Affinity cross-linking studies using 125I-Tyr11-SS-14 gave three bands of 72 KDa, 55 KDa and 32 KDa from AtT-20 cells, but only two bands of 55KDa and 32kDa from COR-L103 cells. These findings suggest that SSTR2 is not expressed in the plasma membranes of COR-L103 cells due to a point mutation, but that this may have no influence on the effect of SS on ACTH secretion.
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PMID:Point mutation of the somatostatin receptor 2 gene in the human small cell lung cancer cell line COR-L103. 776 54


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