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)

A number of neoplasms are known to express somatostatin receptors, and the use of somatostatin receptor imaging in their localization has recently been described. We compared an 123I-labeled somatostatin analog Tyr-3-octreotide (TOCT) and 123I-labeled metaiodobenzylguanidine (MIBG) scintigraphy in seven patients with histologically proven metastatic carcinoid tumors. The optimum time for identifying tumor uptake on scanning after [123I]MIBG was 24-48 hr, and after 123I-TOCT 10-30 min postinjection. Both radiopharmaceuticals showed a varying spectrum of tracer uptake ([123I]MIBG showed no uptake in one patient; minimal in two; moderate in two; and intense in two; 123I-TOCT showed no uptake in two patients; minimal uptake in one; moderate uptake in two; and intense uptake in two). In two patients, 123I-TOCT identified metastatic lesions not seen by [123I]MIBG scintigraphy. These preliminary results suggest that [123I]MIBG and 123I-TOCT are useful and complementary imaging techniques for detecting metastatic carcinoid tumors.
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PMID:A scintigraphic comparison of iodine-123-metaiodobenzylguanidine and an iodine-labeled somatostatin analog (Tyr-3-octreotide) in metastatic carcinoid tumors. 159 26

Somatostatin analogues, labeled with gamma-emitting radionuclides, are of potential value in the localization of somatostatin receptor-positive tumors with gamma camera imaging. We investigated the application in man of a radioiodinated analogue of somatostatin, 123I-Tyr-3-octreotide, which has similar biologic characteristics as the native peptide. The radiopharmaceutical is cleared rapidly from the circulation (up to 85% of the dose after 10 min) mainly by the liver. Liver radioactivity is rapidly excreted into the biliary system. Until 3 hr after injection, radioactivity in the circulation is mainly in the form of 123I-Tyr-3-octreotide. Thereafter, plasma samples contain increasing proportions of free iodide. Similarly, during the first hours after injection, radioactivity in the urine exists mainly in the form of the unchanged peptide. Thereafter, a progressive increase in radioiodide excretion is observed, indicating degradation of the radiopharmaceutical in vivo. Fecal excretion of radioactivity amounts to only a few percent of the dose. The calculated median effective dose equivalent is comparable with values for applications of other 123I-radiopharmaceuticals (0.019 mSv/MBq).
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PMID:In vivo use of a radioiodinated somatostatin analogue: dynamics, metabolism, and binding to somatostatin receptor-positive tumors in man. 164 3

Somatostatin receptors have been characterized on biopsy specimens from small-cell lung carcinoma (SCLC) and on cultured human SCLC cells. We recently described the in vivo visualization of various somatostatin receptor-positive tumors, such as carcinoids and endocrine pancreatic tumors, after injection of 123I-Tyr-3-octreotide, a radiolabeled somatostatin analog. In the present study, this imaging procedure using 123I-Tyr-3-octreotide is reported in 11 patients with lung tumors. In five of eight patients with SCLC (63%), we were able to demonstrate tumor deposits using 123I-Tyr-3-octreotide scintigraphy. Unexpected metastases were found in two patients. In one of three patients with SCLC in whom tumor was not visualized, nonvisualization may have been caused by tumor necrosis and recent radiotherapy. In one of two patients with malignant small-cell tumors as described by Askin, the neoplasm was visualized. Like SCLC, these tumors are thought to derive from neuroendocrine cells. In one patient, a squamous-cell carcinoma and a bronchial adenoma were not visualized. We conclude that in the majority of patients with SCLC, the tumor and its metastases can be visualized using 123I-Tyr-3-octreotide scintigraphy. However, the value of this new technique in terms of specificity and sensitivity requires further studies in a larger group of patients.
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PMID:Radioiodinated somatostatin analog scintigraphy in small-cell lung cancer. 165 97

Somatostatin receptor-positive human tumors can be detected using radioiodinated analogues of somatostatin, both in vitro and in vivo. [123I-Tyr3]-octreotide has been successfully used in the visualization of somatostatin receptor-positive tumors by gamma camera scintigraphy, but this radiopharmaceutical has some major drawbacks, which can be overcome with other radionuclides such as 111In. As starting material for a potentially convenient radiopharmaceutical, a diethylenetriaminopentaacetic acid (DTPA) conjugated derivative of octreotide (SMS 201-995) was prepared. This peptide, [DTPA-D-Phe1]-octreotide (SDZ 215-811) binds more than 95% of added 111In in an easy, single-step labeling procedure without necessity of further purification. The specific somatostatin-like biologic effect of these analogues was proven by the inhibition of growth hormone secretion by cultured rat pituitary cells in a dose-dependent fashion by octreotide, [DTPA-D-Phe1]-octreotide and non-radioactive [115In-DTPA-D-Phe1]-octreotide. The binding of [111In-DTPA-D-Phe1]-octreotide to rat brain cortex membranes proved to be displaced similarly by natural somatostatin as well as by octreotide, suggesting specific binding of [111In-DTPA-D-Phe1]-octreotide to somatostatin receptors. The binding of the indium-labeled compound showed a somewhat lower affinity when compared with the iodinated [Tyr3]-octreotide, but indium-labeled [DTPA-D-Phe1]-octreotide still binds with nanomolar affinity. In conjunction with in vivo studies, these results suggest that [111In-DTPA-D-Phe1]-octreotide is a promising radiopharmaceutical for scintigraphic imaging of somatostatin receptor-positive tumors.
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PMID:[111In-DTPA-D-Phe1]-octreotide, a potential radiopharmaceutical for imaging of somatostatin receptor-positive tumors: synthesis, radiolabeling and in vitro validation. 165 15

Radioiodinated somatostatin analogues are useful ligands for the in vitro and in vivo detection of somatostatin receptors. [111In-DTPA-D-Phe1]-octreotide, a somatostatin analogue labeled with a different radionuclide, also binds specifically to somatostatin receptors in vitro. In this study we investigated its in vivo application in the visualization of somatostatin receptor-positive tumors in rats. The distribution of the radiopharmaceutical was investigated after intravenous injection in normal rats and in rats bearing the somatostatin receptor-positive rat pancreatic carcinoma CA 20948. After injection the radiopharmaceutical was rapidly cleared (50% decrease in maximal blood radioactivity in 4 min), predominantly by the kidneys. Excreted radioactivity was mainly in the form of the intact radiopharmaceutical. Ex vivo autoradiographic studies showed that specific accumulation of radioactivity occurred in somatostatin receptor-containing tissue (anterior pituitary gland). However, in contrast to the adrenals and pituitary, the tracer accumulation in the kidneys was not mediated by somatostatin receptors. Increasing radioactivity over the somatostatin receptor-positive tumors was measured rapidly after injection and the tumors were clearly visualized by gamma camera scintigraphy. In rats pretreated with 1 mg octreotide accumulation of [111In-DTPA-D-Phe1]-octreotide in the tumors was prevented. Because of its relatively long effective half-life, [111In-DTPA-D-Phe1]-octreotide is a radionuclide-coupled somatostatin analogue which can be used to visualize somatostatin receptor-bearing tumors efficiently after 24 hr, when interfering background radioactivity is minimized by renal clearance. This is an advantage over the previously used [123I-Tyr3]-octreotide which has a shorter effective half-life and shows high abdominal interference due to its hepato-biliary clearance. Therefore, [111In-DTPA-D-Phe1]-octreotide seems a better alternative for scintigraphic imaging of somatostatin receptor-bearing tumors.
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PMID:In vivo application of [111In-DTPA-D-Phe1]-octreotide for detection of somatostatin receptor-positive tumors in rats. 165 16

The coupling of postsynaptic somatostatin receptors to pertussis toxin (PTX) sensitive guanine nucleotide regulatory proteins (G proteins) was investigated in dorsolateral septal nucleus (DLSN) neurons using a submerged brain slice preparation and intracellular recording techniques. Rats were pretreated with PTX i.c.v. and neuronal responsivity to somatostatin and baclofen, a selective GABAB receptor agonist, tested using a submerged brain slice preparation and intracellular recording techniques. In tissue obtained from rats pretreated with PTX (2.5 micrograms) for 2-5 days, somatostatin applied by superfusion (0.1 microM) produced membrane hyperpolarization and decreased the membrane resistance of DLSN neurons. Hyperpolarizing effects of somatostatin persisted in the presence of tetrodotoxin (0.3 microM) blocking synaptic transmission. Current-voltage relations of the somatostatin-induced, PTX-resistant hyperpolarization indicated a reversal potential close to the equilibrium potential for potassium ions. Membrane hyperpolarizations in PTX treated tissue were similar to those recorded in tissue from vehicle control or untreated rats. Hyperpolarizing responses to the selective GABAB receptor agonist baclofen, however, were blocked by the PTX treatment used in the present study. Our findings suggest that the postsynaptic inhibitory effects of somatostatin in the DLSN is not mediated by a somatostatin receptor coupled to PTX-sensitive G proteins. These G proteins, however, appear to be an essential link in the postsynaptic GABAB receptor-mediated response of DLSN neurons.
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PMID:Somatostatin induced hyperpolarization of septal neurons is not blocked by pertussis toxin. 167 73

Somatostatin receptor subtypes were labeled with the somatostatin analogs [125I]CGP 23996 and [125I]MK 678 and the distribution of these receptors in rat brain was investigated using quantitative autoradiographic techniques. [125I]CGP 23996 and [125I]MK 678 specifically label different populations of somatostatin receptors in rat brain. In a number of brain regions striking differences in the distribution of the somatostatin receptor subtypes labeled by each peptide were observed. High levels of binding sites for both [125I]CGP 23996 and [125I]MK 678 were present in the cerebral cortex, CA1 region and subiculum of the hippocampus. In contrast, high levels of [125I]MK 678 binding were found in the dentate gyrus of the hippocampus while few [125I]CGP 23996 binding sites were observed in this brain region. [125I]CGP 23996 binding was detected in the central region of the interpeduncular nucleus whereas the dorsal and lateral subnuclei of this brain area expressed mainly somatostatin receptors with high affinity for MK 678. The locus coeruleus and regions of the superior colliculus and hypothalamus selectively express [125I]MK 678-sensitive somatostatin receptors. Furthermore, limbic structures such as the lateral septum, the nucleus accumbens and ventromedial striatum had much higher levels of [125I]MK 678 binding sites than [125I]CGP 23996 binding sites. Differences in the expression of the somatostatin receptor subtypes were also detected in the substantia nigra. [125I]CGP 23996 binding was present in the pars reticulata but not the pars compacta whereas the reverse distribution for [125I]MK 678 binding sites was observed. The differential distribution of [125I]CGP 23996 and [125I]MK 678 binding sites in rat brain supports the hypothesis that these peptides selectively label different somatostatin receptor subtypes in the central nervous system.
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PMID:Differential distribution of somatostatin receptor subtypes in rat brain revealed by newly developed somatostatin analogs. 167 4

We have previously reported a reduction in the inhibitory effect of somatostatin on adenylyl cyclase activity in the superior temporal cortex of a group of Alzheimer's disease cases, compared to a group of matched controls. In the present study, the levels of high affinity 125I-Tyr11-somatostatin-14 binding, its modulation by guanine nucleotides and the effects of somatostatin on adenylyl cyclase activity have been measured in preparations of frontal cortex, hippocampus, caudate nucleus and cerebellum from the same patient and control groups. A significant reduction in 125I-Tyr11-somatostatin-14 binding was observed in the frontal cortex, but not other regions, of the Alzheimer's disease group, compared with control values. The profiles of inhibition of specific 125I-Tyr11-somatostatin-14 binding by Gpp(NH)p were similar in all regions in both groups. No significant differences in basal, forskolin-stimulated, or somatostatin and neuropeptide Y inhibitions of adenylyl cyclase activity were found between the two groups. The pattern of change of somatostatin binding in the Alzheimer's disease cases observed in the present study differs from the reported pattern of loss of somatostatin neurons and may be secondary to the degeneration of somatostatin receptor-bearing cholinergic afferents arising from the nucleus basalis. The results of this study indicate that impaired somatostatin modulation of adenylyl cyclase is not a global phenomenon in Alzheimer's disease brain and also that there are no major disruptions of somatostatin receptor-G-protein coupling or of adenylyl cyclase catalytic activity in this disorder.
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PMID:Regional distribution of somatostatin receptor binding and modulation of adenylyl cyclase activity in Alzheimer's disease brain. 168 16

The ability of somatostatin analogs to interact with the binding of cholecystokinin has been studied in pancreatic and brain cortical membranes. Only the 28 amino-acid forms of somatostatin (S28), [Nle8]S28 and [Des Lys14,DTrp22]S28 were found to inhibit the binding of cholecystokinin to rat pancreatic plasma membranes and to increase the amylase release from pancreatic acini. This effect was independent of somatostatin receptor and resulted from an interaction between S28 and CCK receptor. This interaction was not observed with [Leu8, DTrp22, Tyr25]S28, indicating that this analog does not possess the biological activity of the native peptide and that the iodinated peptide could not label specific S28 receptors. S28 interacted also with CCK receptors in cortical brain membranes. Our results support the concept that S28, but not S14, may function as a regulatory molecule at CCK receptors and emphasize that S28 and S14 may be distinct neuromodulators.
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PMID:Somatostatin 28 interacts with CCK receptor in brain and pancreas. 171 46

The presence of somatostatin receptors was investigated in 57 primary human ovarian tumors using in vitro receptor autoradiography with three different somatostatin radioligands, 125I-[Tyr11]-somatostatin-14, 125I-[Leu8, D-Trp22, Tyr25]-somatostatin-28, or 125I-[Tyr3]-SMS 201-995. Three cases, all belonging to epithelial tumors, were receptor positive; specifically 1 of 42 adenocarcinomas, 1 of 3 borderline malignancies, and 1 of 2 cystadenomas. Four other epithelial tumors (3 fibroadenomas, 1 Brenner tumor), 4 sex cord-stromal tumors (2 fibrothecomas, 2 granulosa cell tumors), and 2 germ cell tumors (1 dysgerminoma, 1 teratoma) were receptor negative. In the positive cases, the somatostatin receptors were localized on epithelial cells exclusively, were of high affinity (KD = 4.6 nmol/l [nanomolar]), and specific for somatostatin analogs. These receptors bound somatostatin-14 and somatostatin-28 radioligands with a higher affinity than the octapeptide [Tyr3]-SMS 201-995. Healthy ovarian tissue had no somatostatin receptors. A subpopulation of relatively well-differentiated ovarian tumors, therefore, was identified pathobiochemically on the basis of its somatostatin receptor content. This small group of somatostatin receptor-positive tumors may be a target for in vivo diagnostic imaging with somatostatin ligands.
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PMID:Somatostatin receptors in differentiated ovarian tumors. 185 Sep 62


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