Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P06889 (Mol)
 630,302 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

1. The application of in situ hybridization histochemistry to the study of neuropeptide gene expression in human brain postmortem tissues is reviewed. We focus on neuropeptides preferentially expressed in hypothalamus and basal ganglia. 32P-labeled oligonucleotides were used as hybridization probes. 2. Autoradiography combined with computerized image analysis was used to visualize and quantify the hybridization signal. 3. Several criteria were considered in order to ascertain the specificity of the signal, including Northern analysis, use of heterologous probes, competition assays, and thermal stability of the hybrids. 4. In control human striatum high levels of hybridization signal were observed for somatostatin, neuropeptide Y, and preproenkephalin A mRNAs. In contrast, no detectable signal was observed with the cholecystokinin, arginine-vasopressin, and oxytocin probes in this area. In the hypothalamus high levels of oxytocin and arginine-vasopressin mRNAs were visualized in several nuclei. Preproenkephalin A and somatostatin mRNAs were also observed in this region, while cholecystokinin mRNA was not detected. 5. No significant correlations were found between the density of the hybridization signal and parameters such as postmortem delay, age, and gender in the population studied. 6. Finally, alterations of mRNA levels for some of these peptides were found in Parkinson's disease and Huntington's chorea striatal tissues. 7. These results show that in situ hybridization histochemistry can be used to examine at the microscopic level neuropeptide gene expression in postmortem materials.
Cell Mol Neurobiol 1990 Mar
PMID:The use of in situ hybridization histochemistry for the study of neuropeptide gene expression in the human brain. 233 44

The distribution of nerve fibers showing neuropeptide Y-like immunoreactivity (NPY-LI) was compared with the distribution of the sympathetic nerve fibers in all parts of the conduction system and adjacent atrial and ventricular tissue of the bovine heart. Tyrosine hydroxylase (TH) and dopamine-beta-hydroxylase (DBH) served as markers for the sympathetic nerve fibers. NPY-LI was detected in most of the sympathetic nerve fibers that were present in nerve fascicles and that were associated with conduction cells and arterial walls in all regions examined. This phenomenon was more apparent when staining for NPY was compared with staining for DBH than with staining for TH. It was also found that some nerve varicosities exhibiting NPY-LI in association with arterial walls and local ganglia did not show DBH-LI. Furthermore, some of the ganglionic cells located in the regions of the conduction system showed NPY-LI but not DBH- or TH-LI. The observations are discussed in relation to what is known of the subcellular localization of NPY, TH and DBH. It is furthermore concluded that an NPY-like peptide is present in the sympathetic innervation of all parts of the conduction system and ordinary myocardial tissue, but that this peptide is also present in nerve fibers in the heart that do not represent sympathetic fibers. The observations raise important questions for further research aimed at determining the effects of NPY in relation to the function of the conduction system and in relation to the functions of not only sympathetic but also non-sympathetic nerve fibers in the heart.
J Mol Cell Cardiol 1989 Mar
PMID:Neuropeptide Y-like immunoreactivity in relation to the distribution of sympathetic nerve fibers in the heart conduction system. 256 93

The distribution of messenger RNA encoding neuropeptide Y (NPY) was studied in 11 different postmortem human brain regions using in situ hybridization histochemistry, and RNA blot analysis. In situ hybridization data revealed that the highest numerical density of labeled cells corresponded to neurons in accumbens area, caudate nucleus, putamen, and substantia innominata. Significantly fewer NPY mRNA-containing neurons were found in frontal and parietal cortex, amygdaloid body and dentate gyrus. No NPY mRNA-containing cells were found in substantia nigra. NPY mRNA-positive neurons from all regions studied showed relatively similar labeling, as revealed by computerized image analysis. Blot analysis showed an approximately 0.8 kb NPY mRNA in all brain regions studied, except in substantia nigra and cerebellum. Densitometric scanning of the autoradiograms revealed levels of NPY mRNA in the following order: putamen greater than caudate nucleus greater than frontal cortex (Brodmann areas 4 and 6) greater than temporal cortex (Brodmann area 38) greater than parietal cortex (Brodmann areas 5 and 7) greater than frontal cortex (Brodmann area 11). Hence, although NPY mRNA is widely distributed in neurons of the human brain large regional variation exists, with the highest expression in accumbens area and parts of the basal ganglia.
Brain Res Mol Brain Res 1989 Dec
PMID:Regional distribution of neuropeptide Y mRNA in postmortem human brain. 259 79

Expressing foreign proteins in heterologous eukaryotic cells has been a powerful tool for analyzing protein structure and function. The inducible mouse metallothionein-I promoter has been particularly useful for expression studies. However, the levels of expression achieved with this promoter in heterologous eukaryotic expression systems have not equaled those observed in vivo for the metallothionein-I gene. We have constructed expression plasmids placing either the gene for chloramphenicol acetyltransferase (CAT) or the cDNA for human neuropeptide Y (NPY) under control of the mouse metallothionein-I promoter. These two expression vectors were used to transfect mouse anterior pituitary tumor cells, from which stable transformants were isolated. The resulting cell lines, Mt.NPY1a and Mt.CAT, were used to maximize functional product expression from the metallothionein-I promoter. In both cell lines, a 35-fold induction of mRNA accumulation, peptide synthesis, or CAT activity was observed.
Mol Cell Endocrinol 1989 Jul
PMID:Metallothionein-I promoter-directed expression of foreign proteins in a mouse pituitary corticotrope tumor cell line. 279 62

We describe the preparation of monoiodinated neuropeptide Y (Tyr1-125I-NPY) and monoiodinated peptide YY (Tyr36-125I-PYY). Using these ligands, we detected high, moderate, and low affinity receptor populations in rat brain. Only high and moderate affinity binding sites were suggested by saturation binding studies. Tyr1-125I-NPY bound to 8 +/- 3% of the sites with a Kd of 54 pM (Bmax = 19.4 fmol/mg of protein) and to 92 +/- 3% of the sites with a Kd of 0.92 nM (Bmax = 220.0 fmol/mg of protein). Tyr36-125I-PYY bound to 14 +/- 3% of the sites with a Kd of 23.5 pM (Bmax = 36.4 fmol/mg of protein) and to 86 +/- 3% of the sites with a Kd of 1.9 nM (Bmax = 220.1 fmol/mg of protein). The fragments NPY 13-36 and PYY 13-36 were able to compete with 10 pM Tyr1-125I-NPY for essentially all the binding sites. The fragments were 1 to 2 orders of magnitude less potent than the native peptides. Approximately 50% of the moderate affinity sites, but not the high affinity sites, were reversibly "lost" in the presence of 5'-guanylyl imidophosphate [Gpp(NH)p], a nonhydrolyzable analog of GTP. Kinetic studies revealed that Tyr1-125I-NPY dissociation could be best described by three dissociation rates. The proportions of slow and intermediate dissociation matched the proportions of moderate and high affinity binding sites, respectively, as suggested by equilibrium studies. There also existed a phase of fast dissociation. When Gpp(NH)p was added during dissociation, the proportion of slow dissociation decreased to the same extent that the fast dissociation was increased. However, the proportion of intermediate dissociation did not change. We propose that rat brain contains a minor population of high affinity NPY binding sites with an intermediate dissociation rate and no sensitivity to Gpp(NH)p. There is also a major population of moderate affinity binding sites with a slow dissociation rate. A component of these sites can convert to a low affinity state with a fast dissociation rate. Gpp(NH)p enhances conversion by stabilizing the low affinity state, thereby producing a "loss" of moderate affinity binding.
Mol Pharmacol 1988 Dec
PMID:125I-neuropeptide Y and 125I-peptide YY bind to multiple receptor sites in rat brain. 284 45

1. We have localized and quantified neuropeptide Y (NPY) binding sites in the rat pituitary gland after incubation of tissue sections in the presence of 125I-Bolton-Hunter NPY followed by autoradiography, computerized microdensitometry, and comparison to 125I-standards. 2. In the rat, NPY binding sites are localized exclusively to the part of the posterior pituitary lobe closer to the pituitary stalk. No NPY binding sites could be found in the intermediate or the anterior pituitary lobes. 3. Our results suggest a role for NPY in the regulation of pituitary function and, in particular, that of the neural lobe.
Cell Mol Neurobiol 1988 Sep
PMID:Quantitative autoradiographic localization of neuropeptide Y (NPY) binding sites in rat posterior pituitary lobe. 285 58

A combination of molecular modeling and molecular dynamics (MD) is used to determine a theoretical structure for neuropeptide Y (NPY). Starting with the X-ray structure for avian pancreatic polypeptide (APP), the substituted amino acids were mutated, the side chains oriented to local potential energy minima, and the entire structure minimized and subjected to an MD simulation. Comparison of the resulting NPY structure with APP X-ray and MD results showed secondary structural elements to be maintained and RMS fluctuations to be similar, although differences in both were observed. The approach presented offers a means to study the structure-function relationships of NPY and other similar polypeptides when combined with pharmacological measurements.
J Comput Aided Mol Des 1988 Apr
PMID:Molecular modeling and dynamics of neuropeptide Y. 319 49

1. To study neuropeptide Y (NPY) effect on melatonin production, rat pineal explants were incubated for 6 hr with 10-1,000 nM NPY in the presence or absence of 10 microM norepinephrine (NE). Melatonin content in the pineal gland and media was measured by radioimmunoassay (RIA). 2. NPY (10-1,000 nM) increased melatonin production and, at 10 or 100 nM concentrations (but not 1,000 nM), enhanced NE stimulation of melatonin production. 3. NPY (1,000 nM) impaired 3H-labeled transmitter release induced by a K+ depolarizing stimulus in rat pineals incubated with 3H-NE. 4. These results suggest that NPY affects both pre- and postsynaptic pineal mechanisms.
Cell Mol Neurobiol 1987 Sep
PMID:In vitro effect of neuropeptide Y on melatonin and norepinephrine release in rat pineal gland. 344 Feb 84

Stargazer mutant mice inherit a recessive neuronal excitability phenotype featuring frequent non-convulsive spike-wave seizures that arise from synchronous bursting in neocortical, thalamic and hippocampal networks. Immunocytochemistry reveals that granule cells in the mutant dentate gyrus aberrantly express neuropeptide Y (NPY) at multiple ages following the developmental onset of seizures. The ectopic NPY is selectively concentrated in the mossy fibers, co-localizing with the releasable dense core vesicle pool. The NPY content of native NPY+local circuit neurons is also elevated in the mutant CNS. There is no concurrent elevation of hippocampal 72 kDa heat shock protein (HSP72), glial fibrillary acidic protein (GFAP) or NADPH-diaphorase, three markers that are induced during cellular injury, and no evidence of granule cell loss. Since mossy fiber NPY expression appears after the developmental onset of spike-wave discharges and can be induced in wild type granule cells by electrical stimulation, the altered peptide phenotype is likely to reflect transynaptic gene induction triggered by synchronous bursting. These results link a specific pattern of repetitive synaptic input with selective molecular plasticity in dentate granule cells that may contribute to dynamic modifications in hippocampal network excitability.
Brain Res Mol Brain Res 1995 Jul
PMID:Aberrant expression of neuropeptide Y in hippocampal mossy fibers in the absence of local cell injury following the onset of spike-wave synchronization. 747 19

mRNA levels of various constituents of large dense-core vesicles were determined in PC12 cells during depolarization and/or in the presence of BayK 8644, forskolin or phorbolester. For the soluble (secretory) proteins of the vesicles the mRNAs of chromogranin A and B, secretogranin II, neuropeptide Y and VGF were analyzed. Depolarization in the presence of BayK induced a strong up-regulation of the messages for chromogranin B, neuropeptide Y and VGF. Addition of forskolin enhanced this response for neuropeptide Y and VGF, phorbolester did the same only for VGF. Partly membrane-bound and membrane-spanning components analyzed were carboxypeptidase H, dopamine beta-hydroxylase and glycoprotein III (clusterin), peptidylglycine alpha-amidating mono-oxygenase and cytochrome b-561, respectively. Changes of mRNAs for these components were in general smaller and delayed. Six days of depolarization caused an up-regulation of glycoprotein III, peptidylglycine alpha-amidating mono-oxygenase and carboxypeptidase H mRNA levels which were not further increased by cyclic AMP and phorbolester. The dopamine beta-hydroxylase message increased after 6 days of depolarization, however, addition of phorbolester reduced this effect. For cytochrome b-561 there was no change after any of the conditions employed. These in vitro results are compared with those obtained for the biosynthesis regulation of large dense-core vesicles under in vivo conditions. It is suggested that in vivo acetylcholine and vasoactive intestinal polypeptide released from splanchnic nerve induce a differential change in the biosynthesis of large dense-core vesicles by acting via calcium and protein kinase A and C.
Brain Res Mol Brain Res 1995 Jul
PMID:Biosynthesis of large dense-core vesicles in PC12 cells: effects of depolarization and second messengers on the mRNA levels of their constituents. 747 21


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