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)

In order to understand the mechanism by which cyclic 3':5'-adenosine monophosphate (cAMP) regulates insulin secretion, cAMP-dependent protein phosphorylation was studied in a transplantable hamster islet cell tumor. Single cell suspensions prepared by enzymatic digestion of the tumors released insulin into the incubation media. Glucagon (3 nM to 3 muM) stimulated cellular cAMP accumulation and insulin release in a dose-dependent manner and these effects were enhanced by 1 mM theophylline. 8-Bromoadenosine 3':5'-monophosphate (8Br-cAMP) (1 mM) increased insulin release. Somatostatin (10 mug/ml) inhibited basal and glucagon or 8Br-cAMP-stimulated insulin release without significantly lowering cellular cAMP in glucagon-stimulated cells. For analysis of phosphoproteins, cells were incubated with carrier-free 32Pi following which lysates were prepared and analyzed by sodium dodecyl sulfate slab gel electrophoresis and autoradiography. Of the numerous 32P-labeled protein bands found, only one (P1, Mr = 28,000) displayed a significant increase in 32P incorporation when cells were incubated under conditions that raise the concentration of cellular cAMP. Somatostatin did not affect 32P incorporation into P1 or any other protein band. When cells were incubated with glucagon, an increase in cellular cAMP was evident after 1 min, enhanced 32P incorporation into P1 after 1 to 5 min, and stimulation of insulin release after 5 to 10 min. Analysis of subcellular fractions led to the designation of P1 as a 40 S ribosomal protein. Two-dimensional electrophoresis of 32P-labeled basic ribosomal proteins showed two labeled proteins, P1 and P2, both of which were localized to the 40 S ribosomal subunit. Only phosphorylation of P1 was stimulated by cAMP. The cAMP-dependent ribosomal phosphoprotein, P1, may be identical with a ribosomal phosphoprotein demonstrated in a variety of tissues and species. Its physiological role remains to be established.
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PMID:Cyclic adenosine 3':5'-monophosphate-mediated insulin secretion and ribosomal protein phosphorylation in a hamster islet cell tumor. 18 14

The data presented concern the chemistry and biology of cardiotrop peptides and proteins isolated by us from the hypothalamus. The molecular mechanisms of the effect of neurohormone "C" (NC) as well as of a new cardiotrop hexapeptide from cattle hypothalamus are discussed. In in vitro studies on homogenates NC has been found to inhibit greatly not only 3'--5'-cyclo-AMP phosphodiesterase activity of brain and heart but also 3'--5'-cyclo-GMP phosphodiesterase activity. NC has been shown to be bound to specific proteins and to the regulatory unit of cyclo-AMP-dependent histone kinase of brain. It seems to compete with cyclo-AMP for the same proteins and is considered to be a regulator of intracellular cyclic nucleotides. NC has been shown to be combined to specific proteins in brain with non covalent bonds. A new cardiotrop hexapeptide has been shown to be present in bovine hypothalamus and its chemical structure has been found to be Tyr-Leu-Gly-Arg-Pro-Gly-amide. The acetylated form of this hexapeptide, which may be also present in brain, is much more active. The radioimmunochemical experiments carried out with antiserum 744 (from prof. Schally) by us have confirmed the existence of this hexapeptide and other fragments of LH-RH in the bovine hypothalamus. The effect of this hexapeptide on cardiac function and metabolism has been compared with a number of polypeptides (luliberin fragments). The hexapeptide has been shown to have not only cardiotropic but also a hypoglycaemic effect. It enhances the secretion of insulin and counteracts the inhibitory action of somatostatin on the insular apparatus. The hexapeptide produces significant changes in the activities of phosphorylase a and b as well as in that of phosphoprotein phosphatases. It reduces the amount of kinines in blood. Certain fractions of substance P, have been shown to have cardiotrop actitivty--they increase the rate of blood leaving the heart. The organotrop effects of a number of peptide neurohormones are discussed in connection with the hexapeptide. The results obtained have shown that the mechanisms underlying the effects of the cardioactive substances found by us are quite different. The data presented show that in brain a number of chemical factors (mainly peptides) are formed, which are involved in the regulation of heart function.
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PMID:[Chemistry and biology of hypothalamic cardioactive proteins and peptides]. 22 93

The presence of immunoreactivity to the neuronal phosphoprotein B-50 and the peptides bombesin, calcitonin gene-related peptide, galanin, neurotensin, neuropeptide Y, somatostatin, substance P, and vasoactive intestinal polypeptide was examined in biopsy specimens from the duodenum and rectum of human immunodeficiency virus (HIV)-seropositive and HIV-seronegative male homosexual patients. The distribution of B-50 and the peptides was correlated with HIV serology, number of CD4+ lymphocytes, and the presence of HIV in biopsy culture. There was a very low incidence of enteric pathogens in both groups of patients. It was found that HIV-seropositive patients had a greater incidence of abnormal patterns of immunoreactivity (reduced intensity and/or density of innervation) in enteric nerves and enteroendocrine cells than HIV-seronegative patients. A reduction of substance P immunoreactivity was significantly correlated with reduced CD4+ lymphocyte count and HIV status; a similar trend was also seen for somatostatin and vasoactive intestinal polypeptide. Using B-50 as a marker, it was found that both groups of patients had altered patterns of immunoreactivity in rectal nerves. The findings of this study suggest that some of the clinical symptoms associated with HIV infection may be caused by a specific HIV enteropathy that influences enteric nerve and/or enteroendocrine cell function by altering the density of peptide immunoreactivity.
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PMID:Peptides in the gastrointestinal tract in human immunodeficiency virus infection. The GI/HIV Study Group of the University of Calgary. 153 25

Our laboratory has reported previously the characteristics of specific AVP binding to rat hippocampal synaptic membranes (SPM) in the presence of Ni2+ [Costantini MG, Pearlmutter AF: J Biol Chem 259: 11739-11745, 1984]. We extended our investigation to determine the effects of Ni2+, (AVP), and AVP analogs on SPM protein phosphorylation. Ni2+ (5 mM) caused a dramatic reduction in phosphorylation of most SPM phosphoproteins. The most prominent protein which is phosphorylated in SPM has a molecular weight of 48 kilodaltons (KDa) and has been named B50 or F1; this protein shows altered phosphorylation in vitro in response to long-term potentiation in vivo as well as changes induced by exposure of SPM to ACTH (1-24), dopamine, and somatostatin. AVP and related peptides reduced phosphorylation of this pre-synaptic phosphoprotein in the following order of potency: AVP = oxytocin greater than DG-AVP greater than dDAVP greater than d(CH2)5Tyr(Me)AVP = [pGlu4,Cyt6]AVP-(4-9). Except for the pressor antagonist d(CH2)5Tyr(Me)AVP, this corresponds to their relative efficacy in displacing 3H-AVP from high-affinity specific binding sites on rat hippocampal synaptic membranes. Ni2+ did not alter the degree of inhibition caused by the peptides. When SPM were treated with AVP after the attainment of maximum 32P incorporation, AVP inhibited dephosphorylation over a 30-min period. Our results show that AVP can alter both phosphorylation and dephosphorylation of hippocampal SPM phosphoproteins in vitro; the direction of these effects depends upon experimental conditions. Since B50/F1 is known to be a substrate for protein kinase C, AVP may act by inhibition of protein kinase C activity, either directly or indirectly.
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PMID:Effects of arginine vasopressin on protein phosphorylation in rat hippocampal synaptic membranes. 303 58

The regulation and function of CREB was examined in B cells to begin to elucidate the role of cAMP-derived signals in B cell activation. CRE-binding activity detected by the electrophoretic mobility shift assay was found to be constitutively expressed in nuclear extracts of primary murine splenic B cells and was unchanged in nuclear extracts obtained from B cells stimulated in a variety of ways. This activity was shown to be specific by competition analysis and to represent CREB or a closely related molecule on the basis of a "supershift" in the mobility of the nucleoprotein complex induced by anti-CREB antiserum. The function of B cell CREB was assessed by transient transfection of the murine B lymphoma cell line, BAL-17, with a CRE-dependent chloramphenicol acetyl-transferase (CAT) construct that contains a portion of the somatostatin promoter. Cross-linking of the surface Ig receptors of transfected BAL-17 B cells produced a threefold induction of CAT activity. Forskolin, which markedly induced CAT expression in PC12 cells transfected with the CRE-dependent construct, failed to stimulate CAT activity in transfected BAL-17 B cells despite an increase in cAMP. However, anti-Ig was found to act in synergy with forskolin to produce enhanced CAT activity. A phosphoprotein of appropriate molecular size for CREB was immunoprecipitated from anti-Ig plus forskolin treated BAL-17 B cells. These results suggest that CREB is present in primary B cells and that CRE-dependent gene expression is regulated by surface Ig either alone or in synergy with cAMP; the latter implies cross-talk between intracellular signaling pathways acting at the level of CREB.
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PMID:Induction of CREB activity via the surface Ig receptor of B cells. 839 39

Developmental changes of the distribution pattern of substance P receptor (SPR) were investigated immunohistochemically in the rat striatum. The SPR immunoreactivity in the striatum first emerged at postnatal day 1 and transiently showed a patchy pattern of distribution until it displayed the adult pattern of homogeneous distribution by the third postnatal week. The SPR-immunoreactivity patches were most marked in the medial and dorsolateral parts of the striatum, as well as in the subcallosal streak. They matched tyrosine hydroxylase-enriched areas and, conversely, avoided calbindin-enriched zones. No neurons within the SPR-immunoreactive patches contained either choline acetyltransferase or somatostatin, which is known to be contained in intrinsic neurons in the striatum. The vast majority of SPR-immunoreactive patch neurons also contained DARPP-32, a phosphoprotein that is expressed in striatal projection neurons with D1 dopamine receptor. The results indicate that SPR-immunoreactive patches which appear transiently in the developing striatum are in register with the striatal patch compartment, and that SPR immunoreactivity within these patches may be expressed on projection neurons rather than intrinsic neurons. Such SPR immunoreactivity in projection neurons in striatal patches may fade out in adulthood.
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PMID:Patchy distribution of substance P receptor immunoreactivity in the' developing rat striatum. 887 81

Methamphetamine (METH) is an illicit and potent psychostimulant, which acts as an indirect dopamine agonist. In the striatum, METH has been shown to cause long lasting neurotoxic damage to dopaminergic nerve terminals and recently, the degeneration and death of striatal cells. The present study was undertaken to identify the type of striatal neurons that undergo apoptosis after METH. Male mice received a single high dose of METH (30 mg/kg, i.p.) and were killed 24 h later. To demonstrate that METH induces apoptosis in neurons, we combined terminal deoxynucleotidyl transferase-mediated dUTP nick end labeling (TUNEL) staining with immunohistofluorescence for the neuronal marker neuron-specific nuclear protein (NeuN). Staining for TUNEL and NeuN was colocalized throughout the striatum. METH induces apoptosis in approximately 25% of striatal neurons. Cell counts of TUNEL-positive neurons in the dorsomedial, ventromedial, dorsolateral and ventrolateral quadrants of the striatum did not reveal anatomical preference. The type of striatal neuron undergoing cell death was determined by combining TUNEL with immunohistofluorescence for selective markers of striatal neurons: dopamine- and cAMP-regulated phosphoprotein, of apparent Mr 32,000, parvalbumin, choline acetyltransferase and somatostatin (SST). METH induces apoptosis in approximately 21% of dopamine- and cAMP-regulated phosphoprotein, of apparent Mr 32,000-positive neurons (projection neurons), 45% of GABA-parvalbumin-positive neurons in the dorsal striatum, and 29% of cholinergic neurons in the dorsal-medial striatum. In contrast, the SST-positive interneurons were refractory to METH-induced apoptosis. Finally, the amount of cell loss determined with Nissl staining correlated with the amount of TUNEL staining in the striatum of METH-treated animals. In conclusion, some of the striatal projection neurons and the GABA-parvalbumin and cholinergic interneurons were removed by apoptosis in the aftermath of METH. This imbalance in the populations of striatal neurons may lead to functional abnormalities in the output and processing of neural information in this part of the brain.
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PMID:Methamphetamine-induced cell death: selective vulnerability in neuronal subpopulations of the striatum in mice. 1665 Jun 8

Cell transplantation is a promising therapeutic approach that has the potential to replace damaged host striatal neurons and, thereby, slow down or even reverse clinical signs and symptoms during the otherwise fatal course of Huntington's disease (HD). Open-labeled clinical trials with fetal neural transplantation for HD have demonstrated long-term clinical benefits for HD patients. Here we report a postmortem analysis of an individual with HD 6 months after cell transplantation and demonstrate that cells derived from grafted fetal striatal tissue had developed into graft-derived neurons expressing dopamine-receptor related phosphoprotein (32 kDa) (DARPP-32), neuronal nuclear antigen (NeuN), calretinin and somatostatin. However, a fully mature phenotype, considered by the expression of developmental markers, is not reached by engrafted neurons and not all types of interneurons are being replaced at 6 months, which is the earliest time point human fetal tissue being implanted in a human brain became available for histological analysis. Host-derived tyrosine hydroxylase (TH) fibers had already heavily innervated the transplants and formed synaptic contacts with graft-derived DARPP-32 positive striatal neurons. In parallel, the transplants contained a considerable number of immature neuroepithelial cells (doublecortin+, Sox2+, Prox-1+, ss3-tubulin+) that exhibited a pronounced migration into the surrounding host striatal tissue and considerable mitotic activity. Graft-derived astrocytes could also be found. Interestingly, the immunological host response in the grafted area showed localized increase of immunocompetent host cells within perivascular spaces without deleterious effects on engrafted cells under continuous triple immunosuppressive medication. Thus this study provides for a better understanding of the developmental processes of grafted human fetal striatal neurons in HD and, in addition, has implications for stem cell-based transplantation approaches in the CNS.
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PMID:Histological findings on fetal striatal grafts in a Huntington's disease patient early after transplantation. 1925 52

High-conductance apical K+ (BK) channels are present in surface colonocytes of mammalian (including human) colon. Their location makes them well fitted to contribute to the excessive intestinal K(+) losses often associated with infective diarrhea. Since many channel proteins are regulated by phosphorylation, we evaluated the roles of protein kinase A (PKA) and phosphatases in the modulation of apical BK channel activity in surface colonocytes from rat distal colon using patch-clamp techniques, having first increased channel abundance by chronic dietary K+ enrichment. We found that PKA activation using 50 micromol/l forskolin and 5 mmol/l 3-isobutyl-1-methylxanthine stimulated BK channels in cell-attached patches and the catalytic subunit of PKA (200 U/ml) had a similar effect in excised inside-out patches. The antidiarrheal peptide somatostatin (SOM; 2 micromol/l) had a G protein-dependent inhibitory effect on BK channels in cell-attached patches, which was unaffected by pretreatment with 10 micromol/l okadaic acid (an inhibitor of protein phosphatase type 1 and type 2A) but completely prevented by pretreatment with 100 micromol/l Na+ orthovanadate and 10 micromol/l BpV (inhibitors of phosphoprotein tyrosine phosphatase). SOM also inhibited apical BK channels in surface colonocytes in human distal colon. We conclude that cAMP-dependent PKA activates apical BK channels and may enhance colonic K+ losses in some cases of secretory diarrhea. SOM inhibits apical BK channels through a phosphoprotein tyrosine phosphatase-dependent mechanism, which could form the basis of new antidiarrheal strategies.
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PMID:Regulation of colonic apical potassium (BK) channels by cAMP and somatostatin. 1940 17

Somatostatin (SST)-positive medium-sized aspiny interneurons are selectively spared in excitotoxicity. The biological effects of SST are mediated via five different receptors, namely somatostatin receptor (SSTR)1-5; however, SSTR subtype spared in excitotoxicity and involved in neuroprotection is not known. Dopamine- and cAMP-regulated phosphoprotein (DARPP-32) is predominantly expressed in medium-sized projection neurons that are most vulnerable in excitotoxicity. In the present study, we determined the colocalization of SST and SSTRs with DARPP-32 in rat brain cortical and striatal regions using immunofluorescence immunohistochemistry. We also determined the expression of DARPP-32 in SSTR1-5 immunoprecipitate prepared from cortex and striatum. SST-positive neurons in cortex and striatum are devoid of colocalization with DARPP-32. However, in cortical and striatal brain regions, three different neuronal populations either expressing SSTRs and DARPP-32 alone or displaying colocalization were identified. Quantitative analysis reveals that in cortex and striatum, SSTR1 and 5 are most predominant receptor subtypes colocalized with DARPP-32 followed by SSTR4, 2, and 3 in cortex whereas SSTR2, 4, and 3 in striatum. Importantly, DARPP-32 is expressed in SSTR1-5 immunoprecipitate prepared from cortex and striatum. Taken together, these results provide the first evidence that the SSTR-positive neurons lacking colocalization with DARPP-32 might be spared in excitotoxicity.
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PMID:Colocalization of somatostatin receptors with DARPP-32 in cortex and striatum of rat brain. 2211 41


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