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)

Pancreatic cancers overexpress tyrosine kinase and luteinizing hormone-releasing hormone (LH-RH) receptor (LH-RHR)-mediated tyrosine phosphatase. LH-RHR is a 60-kDa protein. One of the substrates of epidermal growth factor (EGF)-stimulated tyrosine kinase activity and LH-RH- and somatostatin-stimulated tyrosine phosphatase activity is also a 60-kDa protein. This suggests the possibility that LH-RHR regulation by tyrosine phosphatase and tyrosine kinase is mediated by (de)phosphorylation of existing LH-RHR. To test this hypothesis, membranes of MIA PaCa-2 cells, a human dedifferentiated pancreatic cancer cell line, were incubated without hormone (control) or with 0.1 microM EGF or somatostatin analogue RC-160 for 1 hr at 4 degrees C to phosphorylate the 60-kDa protein. Competition binding experiments with I125-labeled [D-Trp6]LH-RH by displacement with a nonradioactive ligand showed that the LH-RH binding in 69% of the points was increased by EGF and 85% was decreased by RC-160 compared with controls (n = 61; both significant, P less than 0.001). The specific binding was altered, increasing 50-150% after preincubation with EGF and decreasing 60-70% after RC-160. No change was seen in the binding affinity constant after pretreatment with EGF or RC-160. This shows that phosphorylation regulates binding of LH-RH and may explain the up-regulation by EGF and down-regulation by RC-160 and by LH-RH of the LH-RH response.
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PMID:Regulation of luteinizing hormone-releasing hormone receptor binding by heterologous and autologous receptor-stimulated tyrosine phosphorylation. 167 52

Several analogues of somatostatin were examined in the Mia PaCa-2 human pancreatic cancer cell line for their ability to promote tyrosine phosphatase activity affecting the receptors for the epidermal growth factor. The inhibition of growth of the Mia PaCa-2 cells in culture was also evaluated to determine the mechanism of action of somatostatin analogues and their relative effectiveness in inhibiting cancer growth. Of the analogues tested D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Trp-NH2 (RC-160) caused the greatest stimulation of tyrosine phosphatase activity. Analogue D-Phe-Cys-Tyr-D-Trp-Lys-Val-Cys-Thr-NH2 (RC-121) had less effect but was more potent than somatostatin-14. Analogue D-Phe-Cys-Phe-D-Trp-Lys-Thr-Cys-Thr(ol) (SMS 201-995) produced no significant dephosphorylation. The analogues displayed the same order of activity in assays on growth inhibition of Mia PaCa-2 cells in cultures. Analogue (SMS-201-995) caused virtually no tyrosine phosphatase stimulation or growth inhibition in this cancer cell line, although it possesses a much higher antisecretory activity than somatostatin-14 in normal tissues. These observations indicate that somatostatin and some of its analogues can act as growth inhibitors in cancer cells through the activation of tyrosine phosphatase. These data reinforce the view that somatostatin analogue RC-160 and related compounds could be used for treatment of pancreatic cancer.
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PMID:Somatostatin analogues inhibit growth of pancreatic cancer by stimulating tyrosine phosphatase. 256 78

Regulation of tyrosine phosphorylation is thought to be an essential step in signal transduction mechanisms that mediate cellular responses. In pancreatic tumour cells we demonstrated that somatostatin analogues inhibited cell proliferation and stimulated a membrane protein tyrosine phosphatase (PTP) activity at concentrations at which they bind to the somatostatin receptor. To elucidate the role of PTP in the signal transduction pathway activated by somatostatin receptors we first studied the interaction of PTP with the somatostatin receptor at the membrane. We purified somatostatin receptors by immunoaffinity from pancreatic membranes that strongly expressed the type 2 somatostatin receptor sstr2. We identified the receptor as an 87 kDa protein. We demonstrated that a PTP activity co-purified with somatostatin receptors. The PTP was identified as a 66 kDa protein immunoreactive to antibodies against SHPTP1. These antibodies immunoprecipitated somatostatin receptors either occupied or unoccupied by ligand indicating that SHPTP1 is associated with somatostatin receptors. We then expressed sstr2A in monkey kidney COS-7 cells and mouse NIH/3T3 fibroblasts and demonstrated that somatostatin analogues (RC 160, octreotide and BIM 23014) which exhibited high affinity for sstr2 stimulated a PTP activity and inhibited cell proliferation in proportion to their affinities for sstr2. Under the same conditions these analogues have no effect on the growth of cells expressing sstr1. All these results suggest that a PTP related to SHPTP1 is associated with somatostatin receptors and may be involved in the negative growth signal promoted by sstr2.
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PMID:A tyrosine phosphatase is associated with the somatostatin receptor. 758 47

The diverse biological effects of somatostatin (SST) are mediated through a family of G protein coupled receptors of which 5 members have been recently identified by molecular cloning. This review focuses on the molecular biology, pharmacology, expression, and function of these receptors with particular emphasis on the human (h) homologs. hSSTRs are encoded by a family of 5 genes which map to separate chromosomes and which, with one exception, are intronless. SSTR2 gives rise to spliced variants, SSTR2A and 2B. hSSTR1-4 display weak selectivity for SST-14 binding whereas hSSTR5 is SST-28 selective. Based on structural similarity and reactivity for octapeptide and hexapeptide SST analogs, hSSTR2,3, and 5 belong to a similar SSTR subclass. hSSTR1 and 4 react poorly with these analogs and belong to a separate subclass. All 5 hSSTRs are functionally coupled to inhibition of adenylyl cyclase via pertussis toxin sensitive GTP binding proteins. Some of the subtypes are also coupled to tyrosine phosphatase (SSTR1,2), Ca2+ channels (SSTR2), Na+/H+ exchanger (SSTR1), PLA-2 (SSTR4), and MAP kinase (SSTR4). mRNA for SSTR1-5 is widely expressed in brain and peripheral organs and displays an overlapping but characteristic pattern that is subtype-selective, and tissue- and species-specific. Pituitary and islet tumors express several SSTR genes suggesting that multiple SSTR subtypes are coexpressed in the same cell. Structure-function studies indicate that the core residues in SST-14 ligand Phe6-Phe11 dock within a ligand binding pocket located in TMDs 3-7 which is lined by hydrophobic and charged amino acid residues.
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PMID:The somatostatin receptor family. 767 17

Effects of the stable somatostatin analogue RC-160 on cell proliferation, tyrosine phosphatase activity, and intracellular calcium concentration were investigated in CHO cells expressing the five somatostatin receptor subtypes SSTR1 to -5. Binding experiments were performed on crude membranes by using [125I-labeled Tyr11] somatostatin-14; RC-160 exhibited moderate-to-high affinities for SSTR2, -3, and -5 (IC50, 0.17, 0.1 and 21 nM, respectively) and low affinity for SSTR1 and -4 (IC50, 200 and 620 nM, respectively). Cell proliferation was induced in CHO cells by 10% (vol/vol) fetal calf serum, 1 microM insulin, or 0.1 microM cholecystokinin (CCK)-8; RC-160 inhibited serum-induced proliferation of CHO cells expressing SSTR2 and SSTR5 (EC50, 53 and 150 pM, respectively) but had no effect on growth of cells expressing SSTR1, -3, or -4. In SSTR2-expressing cells, orthovanadate suppressed the growth inhibitory effect of RC-160. This analogue inhibited insulin-induced proliferation and rapidly stimulated the activity of a tyrosine phosphatase in only this cellular clone. This latter effect was observed at doses of RC-160 (EC50, 4.6 pM) similar to those required to inhibit growth (EC50, 53 pM) and binding to the receptor (IC50, 170 pM), implicating tyrosine phosphatase as a transducer of the growth inhibition signal in SSTR2-expressing cells. In SSTR5-expressing cells, the phosphatase pathway was not involved in the inhibitory effect of RC-160 on cell growth, since this action was not influenced by tyrosine and serine/threonine phosphatase inhibitors. In addition, in SSTR5-expressing cells, RC-160 inhibited CCK-stimulated intracellular calcium mobilization at doses (EC50, 0.35 nM) similar to those necessary to inhibit somatostatin-14 binding (IC50, 21 nM) and CCK-induced cell proliferation (EC50, 1.1 nM). This suggests that the inositol phospholipid/calcium pathway could be involved in the antiproliferative effect of RC-160 mediated by SSTR5 in these cells. RC-160 had no effect on the basal or carbachol-stimulated calcium concentration in cells expressing SSTR1 to -4. Thus, we conclude that SSTR2 and SSTR5 bind RC-160 with high affinity and mediate the RC-160-induced inhibition of cell growth by distinct mechanisms.
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PMID:Inhibition of cell proliferation by the somatostatin analogue RC-160 is mediated by somatostatin receptor subtypes SSTR2 and SSTR5 through different mechanisms. 787 22

The effects of somatostatin analogues RC-160 and SMS-201-995 on tyrosine phosphatase and cell proliferation were investigated in COS-7 and NIH 3T3 cells expressing human somatostatin receptor subtype 1 or 2 (SSTR1 or SSTR2). Binding experiments were performed on membranes from COS-7 cells expressing human SSTR1 or SSTR2 using 125I-labeled [Tyr11]S-14 or [Tyr3]SMS-201-995, respectively. The somatostatin analogues RC-160 and SMS-201-995 exhibited low affinity for SSTR1 (IC50 of 0.43 and 1.5 microM, respectively) and high affinity for SSTR2 (IC50 of 0.27 and 0.19 nM). Addition of these analogues to cells expressing either SSTR1 or SSTR2 did not result in an inhibition of adenylate cyclase activity. In SSTR2-expressing cells, both analogues induced a rapid stimulation of a tyrosine phosphatase activity (EC50: RC-160, 2 pM; SMS-201-995, 6 pM) and an inhibition of serum-stimulated proliferation (EC50: RC-160, 6.3 pM; SMS-201-995, 12 pM). In SSTR1-expressing cells, only RC-160 induced stimulation of a tyrosine phosphatase activity. Both analogues caused an inhibition of cell proliferation at a concentration higher than 10 nM in accordance with their affinities for the SSTR1 receptor subtype. A good correlation between the affinities of RC-160 and SMS-201-995 for each receptor subtype and their potencies to inhibit cell proliferation suggests the involvement of these receptors in cell growth regulation. Tyrosine phosphatase was stimulated by both these analogues in SSTR2 and by RC-160 in SSTR1 at affinities similar to their ability to inhibit growth and bind to receptors, implicating tyrosine phosphatase as a transducer of the growth inhibition signal. We also found that mRNAs of receptor subtypes were variably expressed in different pancreatic and colon cancer cell lines, indicating the necessity of a precise analysis of receptor subtypes in target tissues before therapy with analogues.
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PMID:Stimulation of tyrosine phosphatase and inhibition of cell proliferation by somatostatin analogues: mediation by human somatostatin receptor subtypes SSTR1 and SSTR2. 790 95

Phosphorylation and dephosphorylation of proteins on tyrosyl residues are important reactions involved in cellular activities, namely, those associated with growth and differentiation. Although it is accepted that cholecystokinin (CCK) and somatostatin (SS) stimulate and inhibit pancreatic growth and secretion, the cellular mechanisms by which these two hormones trigger their stimulatory and inhibitory effects are not well known. It has recently been suggested that, in acinar cells, one of the early signals of SS would involve activation of a membrane tyrosine phosphatase, whereas the signal associated with CCK may involve stimulation of protein tyrosine phosphorylation. This study examines the effects of caerulein (Cae) and SMS-201-995 (SMS) on pancreatic growth, particulate and crude cytosolic tyrosine kinase (TRK), and phosphotyrosine phosphatase (PTase) activities. Rats infused intravenously with 0.05% bovine serum albumin (control), Cae (0.25 micrograms.kg-1.h-1), or SMS (5 micrograms.kg-1.h-1) were killed after 0.5, 1, 2, 3, 4, 8, 12, 24, and 48 h of infusion. The pancreas was excised, weighed, and evaluated for contents of DNA and protein and for TRK and PTase activities. The effects of subtotal pancreatectomy on TRK and PTase activities were also examined after 1, 2, 3, 4, and 7 days. In response to Cae, pancreatic growth was evident after 48 h and was accompanied by sustained increases in particulate TRK and particulate PTase. Increases in membrane PTase activities were localized on membranes of the zymogen granules. SMS treatment was associated with increases in pancreatic weight and protein as a result of inhibition of secretion.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Regulation of pancreatic tyrosine kinase and phosphatase activities by cholecystokinin and somatostatin. 791 95

We have previously shown that somatostatin promotes the stimulation of a membrane tyrosine phosphatase activity in pancreatic cells. To gain insight into the mechanism of somatostatin action, we purified somatostatin-receptor complexes from somatostatin 28-prelabelled rat pancreatic plasma membranes by immunoaffinity chromatography using immobilized antibodies raised against the N-terminal part of somatostatin 28, somatostatin 28 (1-14), which is not involved in receptor-binding-site recognition. After SDS gel electrophoresis a band with a molecular mass of 87 kDa was identified in the affinity-purified material as the somatostatin receptor. The 87 kDa protein was not observed when the membrane receptors were solubilized in a free unoccupied or somatostatin 14-occupied form, or when nonimmune serum replaced the anti-[somatostatin 28 (1-14)] anti-serum. Somatostatin 14 inhibited the appearance of the 87 kDa protein in the same range of concentrations that inhibit radioligand binding on pancreatic membranes. After somatostatin 28 treatment of membranes, purified somatostatin receptor preparations exhibited an elevated tyrosine phosphatase activity that dephosphorylated phosphorylated epidermal growth factor receptor and poly(Glu,Tyr). This activity was related to the presence of somatostatin receptors in purified material. It was increased by dithiothreitol and inhibited by orthovanadate. In purified material containing somatostatin receptors, anti-[Src homology 2 domains (SH2)]-containing tyrosine phosphatase SHPTP1 polyclonal antibodies identified a protein of 66 kDa which was not detected in the absence of somatostatin receptor. Furthermore, the anti-SHPTP1 antibodies immunoprecipitated specific somatostatin receptors from somatostatin-prelabelled pancreatic membranes and from untreated membranes. These results indicate that a 66 kDa tyrosine phosphatase related to SHPTP1 co-purifies with the pancreatic somatostatin receptors, and suggest that this protein is associated with somatostatin receptors at the membrane level.
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PMID:Co-purification of a protein tyrosine phosphatase with activated somatostatin receptors from rat pancreatic acinar membranes. 798 Apr 2

The somatostatin receptor subtype sst2 mediates both activation of a tyrosine phosphatase activity and inhibition of cell proliferation induced by somatostatin analogues. In the absence of exogenous ligand, expression of sst2 in NIH 3T3 cells resulted in inhibition of cell growth. Polymerase chain reaction coupled to reverse transcription demonstrated that expression of sst2 in NIH 3T3 cells stimulated the expression of preprosomatostatin mRNA accompanied by a production of immunoreactive somatostatin-like peptide which corresponded predominantly to somatostatin 14. Moreover anti-somatostatin antibodies suppressed sst2-promoted inhibition of cell proliferation. Inhibition of cell proliferation associated with increased secretion of somatostatin-like immunoreactivity was also observed after expression of sst2 in human pancreatic tumor cells BxPC3 devoid of endogenous receptors. In addition, expression of sst2 in NIH 3T3 cells was associated with constitutive activation of tyrosine phosphatase PTP1C that resulted from enhanced expression of the protein. Blocking of PTP1C tyrosine phosphatase activity with orthovanadate or that of PTP1C protein with antisense PTP1C oligonucleotides decreased the sst2-induced inhibition of cell proliferation. These results, taken together, show that expression of sst2 in NIH 3T3 cells generated a negative autocrine loop by stimulating sst2 ligand production and amplifying PTP1C sst2-transducer. Sst2/ligand may function as a determinant factor involved in the negative growth control of cells.
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PMID:Induction of a negative autocrine loop by expression of sst2 somatostatin receptor in NIH 3T3 cells. 862 71

A protein of 66 kd immunoreactive to anti-tyrosine phosphatase (PTP1C) antibodies coeluted with, and so may be associated with, somatostatin receptors (ssts) from rat pancreatic membranes. Also, anti-PTP1C antibodies immunoprecipitated functional ssts from pancreatic membranes, suggesting a PTP1C protein can associate with ssts at the membrane level. Somatostatin analog RC 160 had good affinity for sst2,3 and sst5 (IC50 = 0.2, 0.1, and 21 nmol/L) and low affinity for sst1 and sst4 (IC50 = 200 and 620 nmol/L), and induced rapid dose-dependent stimulation of PTP activity (maximal at 1 nmol/L and half maximal at 5 pmol/L) in NIH3T3 and CHO cells expressing sst2, with similar results for sst1, but no stimulation with sst3,4 or sst5. Treatment of cells expressing sst2 with RC 160 for 24 hours inhibited serum- or growth factor-induced cell proliferation dose-dependently (maximal at 1 nmol/L, half maximal at 6 to 53 pmol/L RC 160). In cells expressing sst1, weak inhibition of fibroblast growth factor 2-induced NIH3T3 cell proliferation was provoked by somatostatin analogs (> 10 nmol/L). The good correlation between inhibition of somatostatin binding, stimulation of PTP activity, and inhibition of cell proliferation implicates a PTP in growth inhibition mediated by sst2 and sst1.
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PMID:Molecular mechanisms of antiproliferative effect of somatostatin: involvement of a tyrosine phosphatase. 876 71


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