Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts:   Target Concepts:
Query: UNIPROT:P61278 (somatostatin)
 22,083 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Neuropeptide Y (NPY) is demonstrated to be involved in the pathophysiology of Alzheimer's disease, as well as somatostatin. We measured the plasma NPY content in patients with Alzheimer's disease and healthy control subjects (n = 25) by HPLC coupled with radioimmunoassay. The difference in screening pattern of NPY-like immunoreactivity in 50 fractions eluted by HPLC obtained from the plasma peptide-rich fraction between patients with Alzheimer's disease and healthy controls suggested the abnormal metabolism of plasma NPY in patients with Alzheimer's disease. Plasma NPY in patients with Alzheimer's disease was significantly decreased compared with that in healthy controls, which was compatible with the findings obtained from the brain and cerebrospinal fluid and could be involved in the pathogenesis or pathophysiology of Alzheimer's disease.
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PMID:Plasma neuropeptide Y is reduced in patients with Alzheimer's disease. 859 43

Somatostatin-, neuropeptide Y-, neurokinin B- and cholecystokinin-containing neurons were investigated in the rat hippocampus in two chronic models of temporal lobe epilepsy, i.e. 30 days after rapid kindling or electrically induced status epilepticus (post-status epilepticus). After rapid kindling, somatostatin immunoreactivity was strongly increased in interneurons and in the outer and middle molecular layer of the dentate gyrus. In four of six post-status epilepticus rats (status epilepticus I rats), somatostatin immunoreactivity was slightly increased in the dorsal but decreased in the ventral dentate gyrus and molecular layer. Somatostatin immunoreactivity decreased in neurons of the dorsal hilus in the two other post-status epilepticus rats investigated, while a complete loss was found in the respective ventral extension (status epilepticus-II rats). These changes were associated with a different extent of neurodegeneration as assessed by Nissl staining. Similarly, neuropeptide Y immunoreactivity was enhanced in neurons of the hilus and in the middle and outer molecular layer of the dentate gyrus in the dorsal hippocampus of rapidly kindled and status epilepticus-I rats. Neuropeptide Y and neurokinin B immunoreactivity was enhanced in the mossy fibers of all post-status epilepticus rats, but not in the rapidly kindled rats. In status epilepticus-II rats, neuropeptide Y-and neurokinin B-positive fibers were also detected in the infrapyramidal region of the stratum oriens of CA3 and in the inner molecular layer of the dentate gyrus in the dorsal and ventral hippocampus respectively, labeling presumably sprouted mossy fibers. Increased staining of neuropeptide Y and neurokinin B was found in the alveus after rapid kindling. Cholecystokinin immunoreactivity was markedly increased in the cerebral cortex, Ammon's horn and the molecular layer of the dentate gyrus in the ventral hippocampus of rapidly kindled and post-status epilepticus rats. The lasting changes in the immunoreactive pattern of various peptides in the hippocampus may reflect functional modifications in the corresponding peptide-containing neurons. These changes may be involved in chronic epileptogenesis, which evolves in response to limbic seizures.
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PMID:Somatostatin, neuropeptide Y, neurokinin B and cholecystokinin immunoreactivity in two chronic models of temporal lobe epilepsy. 859 52

Quantitative measurements of relative nerve density were achieved using computer-assisted image analysis of immunohistochemically and histochemically defined nerves in the conduction system of the guinea pig heart. All regions of the conduction system possessed a similar density of nerve fibres and fascicles displaying immunoreactivity for the general neuronal marker protein gene product 9.5 (PGP 9.5), and this was 3 to 4-fold higher than in the adjacent myocardium. Acetylcholinesterase (AChE) positive and tyrosine hydroxylase (TH)-immunoreactive nerves were the main subtypes identified in the sinus and atrioventricular nodes, representing 40-45% of the stained area occupied by PGP 9.5-immunoreactive nerves. AChE-positive nerves were the dominant subtype identified in the left and right bundle branches, but were equal in proportion to TH-immunoreactive nerves in the penetrating bundle. Neuropeptide Y-immunoreactive nerves represented the main peptide-containing subpopulation in the nodal tissues, displaying a similar pattern of distribution and relative density to those nerves demonstrating TH immunoreactivity. Substance P and calcitonin gene-related polypeptide immunoreactive nerves were present throughout the conduction system and represented the main peptide-containing subpopulation in the ventricular conduction tissues. Nerve fibres showing immunoreactivity for either somatostatin or vasoactive intestinal polypeptide exhibited distinct patterns of distribution and comprised a relatively minor component of the innervation. The innervation of the guinea pig conduction tissues thus exhibits a uniform distribution and it comprises putative parasympathetic nerves and intrinsic neurons (AChE positive), sympathetic efferent nerves (NPY and TH-immunoreactive nerves) as well as other peptide-containing nerves, some of which (substance P and calcitonin gene-related polypeptide) are considered to represent afferent nerves. The distribution and density of nerve subpopulations in the guinea pig conduction system differ from those observed in the human conduction system, which suggests that the guinea pig may be an inappropriate model for comparative functional studies.
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PMID:A quantitative study of nerve distribution in the conduction system of the guinea pig heart. 862 40

Neuropeptide concentrations were determined in the postmortem cerebral cortex from 19 cognitive-impaired schizophrenics, 4 normal elderly subjects, 4 multi-infarct dementia (MID) cases, and 13 Alzheimer's disease (AD) patients. Only AD patients met criteria for AD. The normal elderly and MID cases were combined into one control group. Somatostatin concentrations were reduced in both schizophrenia and AD. Neuropeptide Y concentrations were reduced only in schizophrenia, and corticotropin-releasing hormone concentrations were primarily reduced in AD. Concentrations of vasoactive intestinal polypeptide and cholecystokinin also were reduced in schizophrenia, although not as profoundly as somatostatin or neuropeptide Y. In AD, cholecystokinin and vasoactive intestinal peptide were unchanged. Neuropeptide deficits in schizophrenics were more pronounced in the temporal and frontal lobes than in the occipital lobe. The mechanisms underlying these deficits in schizophrenia and AD are likely distinct. In schizophrenia, a common neural element, perhaps the cerebral cortical gaba-aminobutyric acid (GABA)-containing neuron, may underlie these deficits.
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PMID:Neuropeptide deficits in schizophrenia vs. Alzheimer's disease cerebral cortex. 871 4

The cellular abundance of neuronal nitric oxide synthase and somatostatin messenger RNAs was compared in the caudate nucleus, putamen and sensorimotor cortex of Huntington's disease and control cases. Neuronal nitric oxide synthase messenger RNA was significantly decreased in the caudate nucleus and putamen, but not in the sensorimotor cortex in Huntington's disease; the decrease in neuronal nitric oxide synthase messenger RNA became more pronounced with the severity of the disease. Somatostatin gene expression was significantly decreased in the dorsal putamen in Huntington's disease, but was essentially unchanged in all other regions examined. The density of neurons expressing detectable levels of neuronal nitric oxide synthase messenger RNA was reduced in the striata of Huntington's disease cases with advanced pathology; the density of neurons expressing detectable levels of somatostatin messenger RNA was similar in control and Huntington's disease cases. Neuropeptide Y-, somatostatin- and NADPH-diaphorase-positive neurons were consistently present throughout the striatum across all the grades of the disease. Neuronal nitric oxide synthase and NADPH-diaphorase activity (a histochemical marker for nitric oxide synthase-containing neurons) co-localize with somatostatin and neuropeptide Y in interneurons in the human striatum and cerebral cortex. Although the neurodegeneration associated with Huntington's disease is most evident in the striatum (particularly the dorsal regions), neuronal nitric oxide synthase/neuropeptide Y/somatostatin interneurons are relatively spared. Nitric oxide released by neuronal nitric oxide synthase-containing neurons may mediate glutamate-induced excitotoxic cell death, a mechanism proposed to be instrumental in causing the neurodegeneration seen in Huntington's disease. The results described here suggest that although the population of interneurons containing somatostatin, neuropeptide Y and neuronal nitric oxide synthase do survive in the striatum in Huntington's disease they are damaged during the course of the disease. The results also show that the reduction in neuronal nitric oxide synthase and somatostatin messenger RNAs is most pronounced in the more severely affected dorsal regions of the striatum. Furthermore, the loss of neuronal nitric oxide messenger RNA becomes more pronounced with the severity of the disease; thus implying a down-regulation in neuronal nitric oxide synthase messenger RNA synthesis, and potentially neuronal nitric oxide synthase protein levels, in Huntington's disease.
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PMID:Decreased neuronal nitric oxide synthase messenger RNA and somatostatin messenger RNA in the striatum of Huntington's disease. 873 28

Neuropeptide Y (NPY) is known to occur in adrenergic and non-adrenergic nerves in rat pancreatic islets. Analysis of islet extracts has revealed local NPY synthesis after glucocorticoid treatment. The cellular localisation of NPY expression in rat islets following dexamethasone treatment (2 mg/kg daily, for 12 days), was investigated by a combination of immunocytochemistry (ICC) and in situ hybridisation (ISH). NPY-immunoreactive nerve fibres were seen in pancreatic islets of both control and dexamethasone-treated rats. In the controls weak NPY immunoreactivity but no NPY mRNA was observed in occasional islets. After dexamethasone treatment, clusters of islet cells distributed both centrally and peripherally displayed intense NPY immunoreactivity and NPY mRNA labelling. Immunocytochemical double staining and ISH combined with ICC for NPY and islet hormones revealed that most NPY expressing cells were identical with insulin cells; a few cells were identical with somatostatin or pancreatic polypeptide (PP) cells. In contrast, glucagon cells seemed to be devoid of NPY immunoreactivity and NPY mRNA labelling. Thus, in the rat, glucocorticoids cause a marked upregulation of NPY expression in islet cells, preferentially the insulin cells. The expression of NPY might represent an islet adaptation mechanism to the reduced peripheral insulin sensitivity.
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PMID:Neuropeptide Y is expressed in subpopulations of insulin- and non-insulin-producing islet cells in the rat after dexamethasone treatment: a combined immunocytochemical and in situ hybridisation study. 874 81

Neuropeptide Y (NPY) may play a physiological role in the regulation of growth hormone (GH) secretion by acting via somatostatin (SS) in the periventricular nucleus (PeV), as well as via the GH-releasing factor in the arcuate nucleus (ARC) of the medial basal hypothalamus (MBH). The objectives of the present study were to determine the neuron structures and receptor subtypes necessary for mediating the inhibitory effect of NPY on GH secretion in unanesthetized male rats. To eliminate the influence of hypophyseotropic SS, anterolateral deafferentation (ALC) of the hypothalamus was performed. Intracerebroventricular (i.c.v.) administration of 1.17 nmol of NPY decreased the blood level of GH for 3-4 h in sham-operated rats, while the procedure was without effect in ALC rats. The i.c.v. administration of 1.17 nmol of a Y1-receptor agonist ([Leu31, Pro34]-NPY) or a Y2-receptor agonist (NPY 13-36 and NPY 3-36) similarly suppressed the blood GH level. The data support the hypothesis that neuron structures anterolateral to the MBH are required for NPY-induced inhibition of GH secretion that is mediated via Y1- and Y2-receptor subtypes. Combined with data of other investigators, SS is likely the neurohumoral mediator of the effect of NPY on GH secretion.
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PMID:Inhibitory effect of neuropeptide Y on growth hormone secretion in rats is mediated by both Y1- and Y2-receptor subtypes and abolished after anterolateral deafferentation of the medial basal hypothalamus. 888 82

Neuropeptides play an important role in the regional regulation of blood flow and hormone secretion. Few studies report the presence of peptides in the human placenta. Our experiment evaluates neuropeptides in the human placenta using immunocytochemical techniques. Representative tissue sections from full-term placentae were fixed immediately after delivery and processed into paraffin sections or frozen. They were treated with multiple immunofluorescence, streptavidin-biotin-peroxidase complex and immunogold-silver staining techniques in combination with well-established monoclonal and polyclonal antibodies, using appropriate absorption controls to ensure the validity of the staining. Vasoactive intestinal polypeptide (VIP), calcitonin gene-related peptide (CGRP), neuropeptide tyrosine (NPY), galanin, somatostatin, met-enkephaline, helodermin and substance P-like immunoreactivities were demonstrated within decidual cells. Endothelin-1 was found in both trophoblasts and endothelial cells. Peptide immunoreactivities in the human placenta especially at the decidual interface between mother and fetus supports a role for the diffuse neuroendocrine system (DNES) in the regulation of placental blood flow critical for fetal growth and development.
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PMID:Localization and distribution of vasoactive neuropeptides in the human placenta. 889 70

Neuropeptides and neurotrophin receptors are regulated in primary sensory neurons in response to axonal injury, and axonal lesions are characteristic stigmata of aging primary sensory neurons. We have therefore examined the expression of neuropeptides and neurotrophin receptor mRNAs in 30-month-old (median survival age) Sprague-Dawley rats to see if similar adaptive mechanisms operate in senescence. The content of neuropeptides was examined with immunohistochemistry (IHC) and in situ hybridization (ISH), and the cellular mRNA expression of neurotrophin receptors was studied with ISH. All of the aged rats had symptoms of hind limb incapacity (posterior paralysis), but fore limbs did not seem affected. The size-distribution of neuronal profiles in cervical and lumbar dorsal root ganglia (DRGs) was similar in aged and young adult (2-3 months old) rats. In aged rats, the DRG neurons showed an increase in both immunolabelling and mRNA content of neuropeptide tyrosine (NPY), as well as an increased cellular expression of galanin mRNA. In the same animals, there were decreased cellular levels of calcitonin gene-related peptide (CGRP; IHC and ISH) and substance P (SP; IHC and ISH), while the difference in neuronal somatostatin (IHC and ISH) was small. The distribution of neuropeptide immunoreactivities in the dorsal horn of the corresponding spinal cord segments revealed a decreased labelling for CGRP-, SP-, and somatostatin-like immunoreactivities (LI) in the aged rats at both cervical and lumbar levels. NPY- and galanin-LI had a similar distribution in aged and young adult rats. NPY-immunoreactive fibers were also encountered in the dorsal column of aged but not young adult rats. ISH revealed that most of the primary sensory neurons express mRNA for the p75 low-affinity neurotrophin receptor (p75-LANR) and that there was no discernible difference between young adult and aged rats. The labelling intensity for mRNA encoding high-affinity tyrosine kinase receptors (TrkA, TrkB, and TrkC) was decreased in aged rat DRG neurons, while the percentage of neuronal profiles expressing mRNA for TrkA/B/C was similar in young adult and aged rats. The changed pattern of neuropeptide expression in primary sensory neurons of aged rats resembled that seen in young adult rats subjected to axonal injury of peripheral sensory nerves and may, thus, indicate aging-related lesions of sensory fibers. Since NPY is primarily present in large and galanin in small DRG neurons, the stronger effect on NPY as compared to galanin expression may indicate that aging preferentially affects neurons associated with mechanoreception (A alpha and A beta fibers) as compared to nociceptive units (A delta and C fibers). Furthermore, the observed changes in neuropeptide expression were most pronounced in lumbar DRGs, that harbors the sensory neurons supplying the affected hindlimbs of the rats.
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PMID:Neuropeptides and neurotrophin receptor mRNAs in primary sensory neurons of aged rats. 891 32

Subependymal giant cell astrocytoma (SEGA) is the most common neoplastic process involving the brain in patients with tuberous sclerosis complex (TSC). Morphologically, these tumors exhibit a wide range of cytoarchitecture with spindle and epithelioid cells resembling astrocytes, and also large, occasionally giant cells, some of which have a distinctly ganglion-like appearance. Unresolved questions regarding SEGAs center on: (a) their cytogenesis, i.e., whether they are derived from single or multiple precursors; and (b) their differentiating capacity along glial or neuronal lines. We sought to determine whether SEGAs represent truly mixed tumors or whether they consist of a single population of cells with a capacity for divergent differentiation. Twenty SEGAs were assessed for immunophenotypic features of either neuronal or glial differentiation or both. Only tumors from patients with a clinically confirmed diagnosis of TSC were included. Immunoreactivity for glial fibrillary acidic protein (GFAP) and/or S-100 protein was considered indicative of a glial phenotype, whereas the presence of neuronal differentiation was assessed by staining for cytoskeletal proteins [neurofilament epitopes, class III Beta-tubulin, microtubule-associated protein 2 (MAP2), synaptophysin], neurosecretory substances [serotonin, cholecystokinin, Beta-endorphin, substance P, somatostatin, metenkephalin, neuropeptide Y, vasoactive intestinal polypeptide (VIP), and for the 28-kDa neuron-associated calcium binding protein calbindin. Of the tumors examined, 18 exhibited both glial and neuronal epitopes, the staining pattern being variable. In 19 tumors, the constituent spindle, polygonal and giant or ganglion-like cells showed variable immunoreactivity for GFAP and S-100 proteins both within the cell body and processes. Neuron-associated cytoskeletal proteins were present in 18 cases. Class III Beta-tubulin immunoreactivity was demonstrated in 17 tumors, both within the bodies of all three cell types and to varying degrees within their processes. Neurofilament protein and calbindin staining was present in 8 tumors, with reactivity for the former being distributed in a phosphorylation-dependent manner. MAP2 was detected in a few cells of two tumors. Immunoreactivity for neuropeptides was observed in 17 lesions. Somatostatin and metenkephalin staining was noted in 10 tumors (50%) being present particularly within polygonal cells. Neuropeptide Y, serotonin and Beta-endorphin reactivity was found in 6 (30%), 5 (25%), and 4 tumors (20%), respectively; Beta-endorphin was lacking in giant cells, whereas neuropeptide Y and serotonin were seen within their cell bodies. Substance P and VIP were evident in only occasional polygonal cells of 2 (10%) and 1 tumor (5%), respectively. Stains for cholecystokinin were negative. The observation of immunoreactivity for both glial- and neuron-associated epitopes within tumor cells of the same morphology suggests that SEGAs represent proliferations of cell lineages with the capacity to undergo divergent glioneuronal as well as neuroendocrine differentiation to a greater extent than do other mixed glial-neuronal neoplasms.
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PMID:Immunohistochemical characterization of subependymal giant cell astrocytomas. 892 13


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