Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P20366 (substance P)
 21,176 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

In the rat thalamus, immunoreactivity for the calcium binding protein calbindin (Cb) is mostly confined to neuronal cell bodies, sometimes revealing proximal dendrites, of the midline, intralaminar and posterior regions. Substance P (SP)-, cholecystokinin (CCK)- and Leu-enkephalin (L-ENK)-immunoreactive (ir) elements in the thalamus are fibre-like structures, intermingled with punctate elements probably representing axonal arborizations and their synaptic boutons. These peptidergic fibres are unevenly distributed in several thalamic domains, including the areas that contain Cb-ir neurons. The relationship between Cb-ir cell bodies and these three different peptidergic systems of thalamic innervation was studied with immunohistochemistry. Single-labelling experiments on adjacent sections and double immunostaining on the same section were performed. A considerable overlap between Cb-ir perikarya and SP-ir fibres was found in most thalamic nuclei. In particular, in the intralaminar nuclei and posterior complex, SP-ir punctate elements were frequently observed in close proximity to Cb-ir cell bodies and dendrites. On the other hand, no consistent topographical correspondence between Cb-ir perikarya and CCK- or L-ENK-ir fibres was evident. Altogether, the present data suggest a selective anatomical and, possibly, functional relationship between SP and Cb in at least a subpopulation of rat thalamic neurons.
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PMID:The relationship of calbindin-containing neurons with substance P, Leu-enkephalin and cholecystokinin fibres: an immunohistochemical study in the rat thalamus. 128 25

The striatum and the mesencephalic dopamine neurons which innervate it, are each organized into developmentally and biochemically distinct compartments. Striatal patches, characterized in the neonate by high concentrations of opiate receptors and substance P, are innervated prenatally by fibers originating in one group of midbrain dopamine neurons, the ventral tier. By the third postnatal day, a dense dopamine projection from neurons in the dorsal tier of the mesostriatal group innervates non-patch areas of the striatum, i.e. the matrix, and is followed by the appearance there of neurotensin, somatostatin and calcium binding protein. We have recently observed that the period of establishment of connections between dorsal tier dopamine neurons and their target cells in the striatal matrix is accompanied by a surge in expression of the gene coding for tyrosine hydroxylase (TH). In order to determine the overall metabolic state of mesencephalic and striatal neurons during the period of up-regulation of TH gene expression, we have applied immunocytochemistry for neuron specific enolase (NSE), and cytochrome oxidase histochemistry, known markers for neuronal activity, as well as TH immunohistochemistry to the mesencephalon and striatum of postnatally developing rats. At birth, both NSE and cytochrome oxidase were expressed almost exclusively in the patches, appearing in the matrix only after the 2nd postnatal day. Patches of NSE remained visible thru the 14th day. In the mesencephalon, cytochrome oxidase and immunoreactive NSE cells in adjacent sections, were present only in the pars reticulata (i.e. ventral tier). By day 8, both techniques identified nigral cells in the dorsal as well as ventral tiers.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Temporal and compartmental restriction of neuron-specific enolase expression in the rat mesostriatal system. 133 Mar 70

Immunocytochemical methods have been used to examine the localisation of 3 neurofilament proteins and the calcium binding protein, calbindin D28k, in whole mount preparations of the submucous plexus in the Wistar rat. Neurofilament-M (160 kDA protein) was present in 40% of the submucosal neurons, staining fine filaments in the soma and the axonal processes. Calbindin D28k was present in 40% of the submucosal neurons staining both the soma and nerves within the plexus. The neurofilament proteins and calbindin D28k were never observed within the same neurons. Neurofilament-M was co-localised with substance P and calcitonin gene-related peptide but not somatostatin or the other neuropeptides investigated. Calbindin D28k was co-localised with vasoactive intestinal polypeptide and neuropeptide Y. Galanin- and somatostatin-immunoreactive neurons did not contain either the neurofilament proteins or calbindin D28k. The results demonstrate the presence of subsets of submucosal neurons that can be distinguished by the presence of neurofilament-M or calbindin D28k.
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PMID:Neurofilament M and calbindin D28k are present in mutually exclusive subpopulations of enteric neurons in the rat submucous plexus. 170 5

Immunoreactivity for the calcium binding protein, calretinin (calretinin-ir), was demonstrated in cell bodies of vagal and glossopharyngeal sensory ganglia (jugular, petrosal, and nodose ganglia) and in associated nerve fibers. In the jugular and petrosal ganglia, many calretinin-ir neurons were also immunoreactive for calcitonin gene-related peptide and substance P. In the nodose ganglion, most of the calretinin-ir neurons lacked these peptides. None of the calretinin-ir neurons in these ganglia were also immunoreactive for tyrosine hydroxylase.
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PMID:Calretinin-immunoreactivity in vagal and glossopharyngeal sensory neurons of the rat: distribution and coexistence with putative transmitter agents. 172 Sep 97

In cynomolgus monkeys rendered parkinsonian by systemic injection of MPTP, severe cell losses were noted in the ventrolateral portion of the substantia nigra pars compacta (SNc), compared to a relative sparing of neurons in the ventral tegmental area (VTA) and dorsomedial portion of SNc. Most spared neurons in the SNc-VTA complex were found to contain the calcium binding protein calbindin (CaBP). At striatal levels the dopaminergic (DA) innervation, as visualized by tyrosine hydroxylase immunoreactivity, was markedly reduced in the 'sensorimotor' territory, variably affected in the 'associative' territory, and relatively well preserved in the 'limbic' territory. The immunoreactivity for enkephalin was enhanced and that for substance P was decreased in the sensorimotor territory, whereas the inverse was observed in the limbic territory. The distribution of the two peptides was highly heterogeneous in the associative territory. These findings suggest that the influence of the DA input on peptide expression varies from one striatal territory to the other, and that CaBP may protect midbrain DA neurons from MPTP toxicity.
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PMID:Effects of dopamine denervation on striatal peptide expression in parkinsonian monkeys. 193 83

In this paper methods are described for the preparation of two types of culture derived from myenteric explants: (a) highly enriched neuronal cell cultures, and (b) purified glial cells (greater than 98%). Both procedures combine the technique of antibody complement-mediated cytolysis with the use of an antimitotic agent. Immunohistochemical methods were used to compare the purified cells to their counterparts in mixed cultures (see accompanying paper). Antibodies to the glycoprotein Thy-1 and the monoclonal antibody A2B5 which recognizes gangliosides, labelled the cell surface of all enteric neurons in enriched cultures while subpopulations of the neurons expressed the Leu 7 carbohydrate epitope, the neurotransmitter 5-hydroxytryptamine and the neuropeptides substance P, methionine-enkephalin and vasoactive intestinal polypeptide. Autoradiographic experiments show that a subpopulation of enriched neurons exhibit high-affinity uptake sites for gamma-[3H]aminobutyric acid (GABA). All purified enteric glia continue to express the calcium binding protein S100, the basement membrane glycoprotein laminin and the antigens recognized by the A2B5 antibody, and subpopulations of glia are labelled by the monoclonal antibodies LB1 which binds to GD3 gangliosides, and Leu 7. Thus enteric neurons and glia can survive independently of each other and express molecular properties which are present in cultures normally containing both cell types.
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PMID:Establishment and properties of separate cultures of enteric neurons and enteric glia. 289 46

A controversy exists in the literature as to whether neurons containing the calcium binding protein calbindin-D28k are located within the human substantia nigra. The point of variance between reports, however, is not the anatomical distribution of these neurons, but rather the delineation of the dorsal border of the substantia nigra. It has been suggested that the dense substance P striatonigral innervation delimits the substantia nigra in the human. The aim of the present study is to re-examine the distribution of calbindin-D28k-positive neurons throughout the substantia nigra using substance P to delimit its borders. Although a few calbindin-D28k-positive neurons were found in the medial cell group of the substantia nigra, the vast majority of positive neurons were located in the adjacent A8 and A10 dopaminergic cell groups. This anatomical location of calbindin-D28k-positive neurons is consistent with previous reports, though our results indicate that when the striatonigral projection is used to define the substantia nigra, calbindin-D28k is not a notable feature of these neurons. This questions the neuroprotective role of this protein in Parkinson's disease.
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PMID:Calbindin D28k-containing neurons are restricted to the medial substantia nigra in humans. 753 46

The cellular and subcellular distributions of the ionotropic alpha-amino-3-hydroxy-5-methyl-4-isoxazole propionic acid (AMPA)-preferring glutamate receptor (GluR) in monkey striatum were demonstrated immunocytochemically using anti-peptide antibodies to individual subunits of the AMPA receptor. These antibodies specifically recognize GluR1, GluR4, and an epitope common to GluR2 and GluR3 (designated as GluR2/3). On immunoblots, the antibodies detect proteins ranging from 102 to 108 kDa in total homogenates of monkey striatum, hippocampus, and cerebellum. By immunoblotting, GluR1 and GluR2/3 are considerably more abundant than GluR4 in the caudate nucleus. Within the caudate nucleus, putamen, and nucleus accumbens, numerous neuronal perikarya, dendrites, and spines show GluR1 and GluR2/3 immunoreactivities. GluR1- and GluR2/3-enriched striatal neurons have the morphology, transmitter specificity, and distribution of medium-sized (10-20 microns) spiny neurons; large (20-60 microns) round neurons exhibit GluR4 immunoreactivity. GluR1 immunoreactivity, but not GluR2/3 or GluR4 immunoreactivity, is more intense in the ventral striatum (i.e., nucleus accumbens) than in the dorsal striatum, and GluR1 is enriched within dendritic spines in the neuropil of the nucleus accumbens and striosomes in the dorsal striatum. In the caudate nucleus, these patches of dense GluR1 immunoreactivity align with regions low in calcium binding protein immunoreactivity and high in substance P immunoreactivity. Within striosomes, GluR1 immunoreactivity is more abundant than GluR2/3 immunoreactivity; GluR4 immunoreactivity is sparse in striosomes, but the matrix contains large, GluR4-positive cholinergic neurons. This study demonstrates that, within monkey striatum, subunits of ionotropic AMPA GluR have differential distributions within striosomes and matrix. Furthermore, the results suggest that neurons within striatal striosomes and matrix may express different combinations of GluR subunits, thus forming receptors with different channel properties and having consequences that may be relevant physiologically and pathophysiologically. Neurons within these two striatal compartments may have different roles in the synaptic plasticity of motor systems.
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PMID:The striatal mosaic in primates: striosomes and matrix are differentially enriched in ionotropic glutamate receptor subunits. 767 61

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

The superior colliculus is a midbrain structure serving visual, multisensory and sensorimotor processing. Throughout various collicular layers, visual afferents are linked together with afferents related to other sensory modalities as well as with afferents from sources not easily subsumed under the term 'sensory'. These inputs are orchestrated in a topographic fashion and led to premotor neurons that are important elements in generating saccadic eye movements and orientation movements of other kinds. Using immunocytochemical techniques to chart the distribution of various substances serving neurotransmission and neuromodulation, it was found that many of them, e.g. acetylcholinesterase (AChE), choline acetyltransferase, the enkephalins, substance P, and parvalbumin, relate to repetitive structural islands, or modules, in the superior colliculus. From studies on the distribution of three further neuroactive substances in rat superior collicular tissue: the calcium binding protein calretinin, the growth and plasticity related protein neuromodulin (GAP-43), and a glutamate receptor of the NMDA-type, we were led to conclude (1) that the intermediate layers of the superior colliculus are composed not of two, but of at least three disjunct types of modules, (2) that not just the intermediate layers but more or less the whole superior colliculus is an assemblage of modules, and (3) that, besides topographic connectivity and laminar structuring, the modules constituting an iterative partitioning represent a third major feature of superior collicular architecture. The origin of the collicular mosaic is considered under an evolutionary perspective, and a hypothesis is presented stating that the pattern of AChE-rich modules on the level of the multimodal collicular layers can be predicted from retinal ganglion cell topography.
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PMID:The mosaic architecture of the superior colliculus. 897 18


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