Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.1.27.4 (ribonuclease)
 6,621 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

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

Previous work from our laboratory has implicated hormone-induced plasma membrane movement (i.e., endo- and exocytosis) in water and electrolyte transport by the epithelial cells that line the ducts in the liver (i.e., cholangiocytes). To further explore the cellular mechanisms regulating ductal bile secretion, we infused somatostatin and/or secretin intravenously into rats 2 wk after either bile duct ligation (BDL), a procedure that induces selective proliferation of cholangiocytes, or sham surgery and measured bile flow and biliary constituents. We also determined the effect of somatostatin on basal and secretin-induced exocytosis by purified cholangiocytes isolated from rat liver after BDL. Finally, we studied the expression of the somatostatin receptor gene by both ribonuclease (RNase) protection and nuclear run-on assays using cDNA encoding for two subtypes of the somatostatin receptor gene (i.e., SSTR1 and SSTR2). In vivo, somatostatin infusion caused a dose-dependent bicarbonate-poor decrease (57% maximal decrease below baseline; P < 0.05) in bile flow in BDL but not in sham-operated rats; in contrast, secretin caused a dose-dependent bicarbonate-rich choleresis (228% maximal increase above baseline; P < 0.05) in BDL but not in sham-operated rats. Simultaneous or prior infusion of somatostatin inhibited the secretin-induced hypercholeresis in BDL rats. In vitro, somatostatin had no effect on basal exocytosis by cholangiocytes isolated from BDL rats; however, somatostatin inhitibed (88% maximal inhibition; P < 0.05) secretin-induced exocytosis by cholangiocytes in a dose-dependent fashion. In addition, somatostatin inhibited secretin-induced increases in levels of adenosine 3',5'-cyclic monophosphate (cAMP) in cholangiocytes isolated from BDL rats.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Somatostatin inhibits secretin-induced ductal hypercholeresis and exocytosis by cholangiocytes. 763 87

12 women with primary breast cancer underwent somatostatin receptor scintigraphy (SRS) with 111In-DTPA-D-Phe1-octreotide. The tumour sizes varied between 2 and 5 cm and were all, except one, palpable at clinical examination. Tumour biopsies were taken with additional sampling from normal breast tissue, fat, muscle, axillary lymph nodes and peripheral blood. Ratios between the 111In activity concentration in the tissue biopsies (Ti) and in peripheral blood (B) as well as in normal breast tissue (Br) were calculated. In 8/12 patients the scintillation detector was used intraoperatively for radioactivity measurements of the biopsies in situ and ex vivo. The sstr-subtype profiles were determined by northern blot analysis and the relative expression of sstr2 by ribonuclease protection assay (RPA) and immunocytochemistry. Preoperative SRS visualised all primary breast cancer tumours. The scintigraphic image showed no correlation with the histopathological type of the tumour or with the abundance of oestrogen/progesterone receptors on the tumour. Two patients with a massive tumour infiltration of the lymph nodes had a distinct positive SRS of the ipsilateral axilla. In one patient with three nodal metastases the scintigraphic image of the axilla was weak but visible. Four other patients with a negative axillary scintigraphy had 1-2 lymph node metastases. The Ti/B ratios for the breast tumours varied between four and 33 and were not different from Ti/Br ratios. In lymph node metastases the Ti/B ratios were higher (10-41). Intraoperative detector measurements showed a significant difference between the breast tumour and normal tissue in 2/8 patients in situ. Similar measurements on excised tissues (ex vivo) showed a significant difference in 6/8 patients. Two patients with lymph node metastases exhibited a significantly increased uptake ex vivo by detector measurements, but in only one of them in situ. All tumour biopsies expressed the presence of sstrl, 3, 4 and 5, but not of sstr2 at northern analysis. On the other hand, sstr2 was detected in all tumours by RPA and immunocytochemistry. Preoperative SRS visualised primary breast cancer lesions in all 12 patients. SRS could also demonstrate extensive axillary tumour infiltration. Intraoperative use of the scintillation detector could not exclude axillary metastases in situ. The low Ti/B values of both primary tumours and metastases indicate limitations of the radiopharmaceutical used.
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PMID:Indium-111-octreotide scintigraphy, intraoperative gamma-detector localisation and somatostatin receptor expression in primary human breast cancer. 1218 70

The CAD cell line originates from catecholaminergic neurons in the central nervous system (CNS) of a simian virus large T antigen transgenic mouse. In the present study, we have immunohistochemically characterized the cell line after differentiation in serum-free medium, using immunofluorescence in combination with confocal laser scanning microscopy (CLSM), immunoblot, and ribonuclease protection assay (RPA). Tyrosine hydroxylase (TH)-, phenylethanolamine-N-methyltransferase (PNMT)-, neuropeptide Y (NPY)-, vesicular monoamine transporter subtype 2-, vasoactive intestinal peptide (VIP)-, somatostatin (SS)-, synaptophysin-, synaptic vesicle protein 2 (SV2)-, and growth-associated protein of 43 (GAP-43)-immunoreactivities (IRs) were present in the cells but not choline acetyltransferase and vesicular acetylcholine transporter. The immunoreactive substances were present in cell bodies in serum-containing medium (SCM), but after serum withdrawal (protein-free medium, PFM) these proteins and peptides were partially shifted into the long process and their varicosities. A few cells cultured in PFM were occasionally found with extremely high TH-immunoreactivity (IR) in cell bodies and processes. Growth-associated protein of 43-immunoreactivity was weak in SCM but was up-regulated (verified with immunoblot) in PFM and concentrated in varicosities along the processes and the distal tips of neurites. The somatostatin receptor subtype 2a (SSR(2(a))) was found in the cytoplasm and the plasma membrane of the CAD-cells. After serum deprivation, all three methods showed that SSR(2(a)) was up-regulated in the cells. Thus, the CAD cell line after differentiation may be suitable for studying dynamics of SSR(2(a)).
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PMID:Adrenergic differentiation and SSR2a receptor expression in CAD-cells cultured in serum-free medium. 1244 Nov 63