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: EC:2.7.7.49 (reverse transcriptase)
31,746 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pancreatic poly(A) RNA isolated from the channel catfish (Ictalurus punctatus) was enriched for sequences corresponding to somatostatin mRNA on isokinetic sucrose gradients. Double-stranded cDNA was synthesized and inserted into the Pst I site pBR322 via the poly(dG) . poly(dC) tailing method. Escherichia coli was transformed with this DNA, and colonies containing somatostatin cDNA sequences were identified by hybridization using a primer-extended somatostatin cDNA. The somatostatin cDNA was obtained by extending a 5'-labeled undecanucleotide primer complementary to somatostatin mRNA with reverse transcriptase using catfish poly(A) RNA as a template. The synthetic primer d(T-T-C-C-A-G-A-A-G-A-A) was deduced from the amino acid sequence Phe-Phe-Trp-Lys present in somatostatin-14. Twenty positive colonies were obtained upon screening 2000 transformants. The restriction maps of the plasmid DNA obtained from the positive colonies were examined. Nineteen of these plasmids contained sequences corresponding to somatostatin-14, while one contained a sequence corresponding to somatostatin-22. The nucleotide sequence of pancreatic somatostatin-14 is reported here. The cDNA contains 350 nucleotides in the 3' noncoding region, 345 nucleotides in the coding region, and 104 nucleotides in the 5'-untranslated region. The mRNA codes for a precursor to somatostatin which is 114 amino acids in length. The preprosomatostatin has a sequence of hydrophobic amino acids at the NH2 terminus, followed by a connecting peptide of approximately 75 amino acids. The sequence Arg-Lys precedes somatostatin-14. Analysis of genomic DNA from the channel catfish reveals that somatostatin-14 and somatostatin-22 are present on different restriction fragments.
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PMID:The structure of cloned DNA complementary to catfish pancreatic somatostatin-14 messenger RNA. 617 39

Five subtypes of somatostatin receptors (sst) have recently been cloned and reported to be expressed in rat brain. However, conventional mRNA measurement techniques do not allow to accurately compare the levels of expression of the 5 sst. Thus, we established a quantitative reverse transcriptase polymerase chain reaction method for the 5 sst. A cRNA internal standard was constructed by inserting in msst1 plasmid sequences corresponding to specific sense primers for amplification of each sst. Using a common reverse primer, a unique primer pair by receptor amplifies both wild type and standard RNAs with the same efficiency. The technique was validated by evaluating sst mRNAs in 3 brain structures in which different somatostatin receptor binding levels were previously reported. While the absolute level of expression is similar between regions, sst3 is the major subtype in cerebellum, sst1 predominates in spinal cord and sst4 and sst2 are equally expressed in the hypothalamus.
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PMID:Differential expression of somatostatin receptors by quantitative PCR in the rat brain. 758 74

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

The presence of somatostatin receptors has been demonstrated in various endocrine tumors as well as in normal tissues. We recently have cloned five human somatostatin receptor subtypes (SSTR1-SSTR5). These mRNAs are expressed in a tissue-specific manner. In this study, we have determined the somatostatin receptor subtypes expressed in various endocrine tumors using a reverse transcriptase polymerase chain reaction method. In two cases of glucagonoma and its metastatic lymph nodes in one case, all the SSTR subtype mRNAs except SSTR5 mRNA were expressed. In four cases of insulinoma, SSTR1 and SSTR4 mRNAs were detected, but SSTR2 mRNA was not detected in one case and SSTR3 mRNA was not detected in two cases, indicating a heterogeneous expression of SSTR subtypes in insulinomas. Interestingly, SSTR3 mRNA, which is highly expressed in rat pancreatic islets, is not expressed in normal human pancreatic islets, while SSTR1, SSTR2, and SSTR4 mRNAs are expressed. In three cases of pheochromocytoma, SSTR1 and SSTR2 mRNAs were detected, showing an expression pattern identical to that of normal adrenal gland. In a carcinoid, SSTR1 and SSTR4 mRNAs were detected. We have also found that human SSTR2 shows a high affinity for SMS 201-995, which has been used clinically for the treatment of endocrine tumors. Since SMS 201-995 was effective in the treatment of a patient with glucagonoma in which SSTR2 mRNA was present, but had no effect in a patient with carcinoid in which SSTR2 mRNA was not detected, this study suggests that the efficacy of SMS 201-995 may depend, at least in part, on the expression of SSTR2 in tumors.
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PMID:Identification of somatostatin receptor subtypes and an implication for the efficacy of somatostatin analogue SMS 201-995 in treatment of human endocrine tumors. 813 73

5-Lipoxygenase-activating protein (FLAP) is an 18-kDa integral membrane protein required, in peripheral cells, for the activation of 5-lipoxygenase (5-LO) and for the resulting synthesis of leukotrienes from arachidonic acid. In the brain, the leukotrienes have been implicated in several pathophysiological events and in the electrophysiological effect of somatostatin, yet the cellular origin and role of these messenger molecules are still poorly understood. In the present study, we used reverse transcriptase-polymerase chain reaction, in situ hybridization, and immunohistochemistry to demonstrate that 5-LO and FLAP are expressed in various regions of the rat brain, including hippocampus, cerebellum, primary olfactory cortex, superficial neocortex, thalamus, hypothalamus, and brainstem. Highest levels of expression were observed in cerebellum and hippocampus. In the latter we demonstrate the colocalization of 5-LO and FLAP in CA1 pyramidal neurons. Moreover, electrophysiological experiments show that selective inhibition of FLAP with the compound MK-886 (0.25-1 microM) prevents the somatostatin-induced augmentation of the hippocampal K+ M-current. Our results provide necessary evidence for the presence and signaling role of 5-LO and FLAP in central neurons and strongly support their proposed participation in somatostatin-receptor transmembrane signaling.
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PMID:Arachidonate 5-lipoxygenase and its activating protein: prominent hippocampal expression and role in somatostatin signaling. 852 47

In the past few years, five different somatostatin (SRIF) receptor subtypes (sst1.5) have been identified, which form a distinct group in the superfamily of G-protein-coupled receptors. The naturally occurring somatostatins SRIF-28, SRIF-25, and SRIF-14 all reveal high-affinity binding for sst1.5. In contrast, short synthetic analogs that are in clinical use, such as SMS 201-995, RC-160, or BIM 23014, primarily interact with the sst2 subtype. Some SRIF analogs were previously reported to be selective for one SRIF receptor subtype, eg, the sst2 (MK 678), the sst3 (BIM 23056), or the sst5 (BIM 23052, L362-855) subtype. However, when we studied the binding affinities of these SRIF analogs for human (h) sst1.5 expressed in either CHO or COS-1 cells, we were unable to confirm these previously reported selectivities. The absence of sst antagonists is a major drawback for investigating the functional role of each sst subtype. We used site-directed mutagenesis to identify amino acids that determine ligand specificity for sst2. A single Ser305 to Phe mutation in TM VII increased the affinity of hsst1, for SMS 201-995 nearly 100-fold, and when Gln291 was also exchanged to Asn in TM VII of hsst1, almost full sst2-like binding of SMS 201-995 was obtained. These data may aid in the design and synthesis of new selective type sst ligands. We have identified the expression of sst subtypes in nonclassical SRIF target tissue such as the lung. The pKi values for SRIF and various SRIF analogs in rat lung tissue preparations were in close correlation with those obtained for CHO cells expressing the sst4 subtype. Furthermore, reverse transcriptase polymerase chain reaction (RT-PCR) experiments revealed the predominant expression of mRNA specific for sst4 in mouse, rat, and human lung tissue, confirmed by autoradiographies of rat lung. No specific binding for [125I]Tyr3-SMS 201-995 was detected, since SMS 201-995 has low affinity for sst4. In contrast, specific binding of [125I]SRIF-28 to rat lung sections was demonstrated, which could be displaced by unlabelled SRIF-14 and SRIF-28, indicating specific, high affinity binding of this radioligand to sst4 receptors.
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PMID:Binding properties of somatostatin receptor subtypes. 876 72

Somatostatin modulates important physiologic functions of the kidney, including mesangial cell contraction, glomerular prostaglandin synthesis, and phosphate, water and sodium excretion. In diabetic nephropathy, somatostatin inhibits renal hypertrophy. High affinity somatostatin receptors are expressed in the kidney. Circulating somatostatin concentrations, however, are generally well below the affinity constants of known somatostatin receptors. Thus, we hypothesized that somatostatin is produced in the kidney and released locally to act in an autocrine/paracrine manner. Using reverse transcriptase and polymerase chain reaction (RT-PCR) analysis, we found that fresh human renal cortex and cultured human mesangial cells express somatostatin mRNA. Restriction enzyme and Southern blot analysis confirmed that RT-PCR cDNA products were derived from somatostatin mRNA. Radioimmunoassay of mesangial cell culture supernatants demonstrated SS-immunoreactive peptide (87 +/- 30 pg/ml compared to 19 +/- 9 pg/ml in medium not exposed to cells; P < 0.05). In contrast, renal cells did not transcribe detectable levels of vasoactive intestinal peptide (VIP) or neuropeptide Y (NPY) mRNA, nor did they synthesize measurable peptide. Our results demonstrate that renal cells produce somatostatin and suggest that kidney-derived somatostatin may regulate renal function in an autocrine/paracrine manner. Characterization of this pathway may lead to novel methods to alter the course of diabetic nephropathy and other renal diseases.
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PMID:Somatostatin expression in human renal cortex and mesangial cells. 909 50

The beta 3-adrenoceptor (beta 3-AR) agonist SR-58611A {ethyl-[(7s)-7-[[(2R)-2-(3-chlorophenyl)-2-hydroxyethyl]amino]5, 6,7,8-tetrahydronaphth-2-yl]oxyacetate hydrochloride} stimulated somatostatin and gastrin releases in isolated rat gastric antral epithelial cells. Stimulation was a concentration-dependent process with 50% effective concentrations of 2.7 +/- 1.1 and 3.8 +/- 1.9 nM compared with 209 +/- 71 and 230 +/- 51 nM for isoproterenol, respectively. It was inhibited by selective beta-AR antagonists with the following rank order of potency: SR-59230A 3-(2-ethylphenoxy)1-[(1S)-1,2,3,4-tetrahydronaphth- 1-ylamino]-(2S)-2-propranol oxalate; beta 3-AR antagonist > ICI-118551[erythro-(+/-)-1-(7-methylindan-4-yloxy)-3- isopropylaminobutan-2-ol-hydrochloride; beta 2-AR antagonist > CGP-20712A[(+/-)-[2-(3-carbarmoyl-4-hydroxyphenoxy)-et hyl- amino]-3-[4 (1-methyl-4-trifluoromethyl-2-imidazolyl)-phenoxy]- 2-propranol; beta 1-AR antagonist]. Furthermore, specific binding of 125I-cyanopindolol to the isolated cells was demonstrated and was displaced by the beta-AR antagonists according to the same rank order of potency and with apparent dissociation constants consistent with the 50% inhibitory concentrations for SR-58611A-stimulated somatostatin and gastrin releases. In addition, the presence of beta 3-AR mRNA was detected by reverse transcriptase polymerase chain reaction. These findings provide the first evidence for a gastric beta 3-AR mediating catecholamine stimulation of gastrin and somatostatin releases from antral cells.
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PMID:Characterization of a beta 3-adrenoceptor stimulating gastrin and somatostatin secretions in rat antrum. 917 7

Somatostatin and its analogues are now of current use in the management of endocrine gastroentero-pancreatic (GEP) tumours for the purpose of inhibiting hormone hypersecretion, carrying scintigraphy imaging and attempting to slow down tumour growth. Recent molecular studies have revealed the existence of up to five membrane somatostatin receptor subtypes termed SSTR1-5. However, whether or not scintigraphy imaging and tumour characteristics are correlated with specific subtype(s) remains unclear. SSTR1-5 messenger RNA (mRNA) transcripts were investigated in 38 endocrine GEP tumours (32 islet cell tumours, six carcinoid) using reverse transcriptase polymerase chain reaction (RT-PCR), and their distribution was analysed with respect to tumour characteristics and scintigraphy imaging. SSTR2, SSTR5 and SSTR4 were detected in most cases of endocrine GEP tumours (92%, 84%, and 82% respectively), but SSTR1 and SSTR3 were less frequently observed (66% and 50% respectively). No clear-cut correlation was found between tumour characteristics and subtype mRNA distribution. Moreover, no differences in mRNA subtype distribution were found between the 17 tumours detected by scintigraphy and the four tumours not detected by this method. Somatostatin receptor mRNA subtypes are widely expressed in endocrine GEP tumours, but their distribution is not correlated with tumour characteristics or scintigraphy positivity.
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PMID:Somatostatin receptor subtype gene expression in human endocrine gastroentero-pancreatic tumours. 927 25

We have previously shown that somatostatin can either enhance or decrease AMPA/kainate receptor-mediated responses to glutamate in mouse-dissociated hypothalamic neurones grown in vitro. To investigate whether this effect is due to differential activation of somatostatin (SRIF) receptor subtypes, we compared modulation of the response to glutamate by SRIF with that induced by CH-275 and octreotide, two selective agonists of sst1 and sst2/sst5 receptors, respectively. Somatostatin either significantly decreased (49%) or increased (30%) peak currents induced by glutamate, and was ineffective in the remaining cells. Only the decreased response was obtained with octreotide, whereas only increased responses were elicited by CH-275 (47 and 35% of the tested cells, respectively). Mean amplitude variations under somatostatin or octreotide on the one hand, and under somatostatin or CH-275 on the other hand, were equivalent. Pertussis toxin pretreatment significantly decreased the number of cells inhibited by somatostatin or octreotide, but had no effect on the frequency of neurones showing increased sensitivity to glutamate during somatostatin or CH-275 application. About half of the neurones tested by single cell reverse transcriptase polymerase chain reaction (RT-PCR) expressed only one sst receptor (sst1 in 26% and sst2 in 22% of studied cells). Out of the remaining neurones, 34% displayed neither sst1 nor sst2 mRNAs, whereas 18% showed a simultaneous expression of both mRNA subtypes. Expression of sst1 or sst2 mRNA subtypes matched totally with the effects of somatostatin on sensitivity to glutamate in 79% of the neurones processed for PCR after recordings. These data show that pertussis toxin-insensitive activation of the sst1 receptor subtype mediates somatostatin-induced increase in sensitivity to glutamate, whereas decrease in the response to glutamate is linked to pertussis toxin-sensitive activation of the sst2 receptor subtype.
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PMID:Somatostatin receptor subtypes sst1 and sst2 elicit opposite effects on the response to glutamate of mouse hypothalamic neurones: an electrophysiological and single cell RT-PCR study. 975 28


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