Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UNIPROT:P50583 (asymmetrical)
12,197 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Calretinin-containing cells were visualized with immunocytochemistry in the rat dorsal hippocampal formation. Calretinin immunoreactivity was present exclusively in non-pyramidal cells in all layers of the dentate gyrus and the CA1-3 areas. Calretinin-positive neurons and processes were most abundant in the hilus of the dentate gyrus and in the stratum lucidum of the CA3 region. Several calretinin-immunoreactive cells were located within the hippocampal fissure. A distinct band of calretinin-immunoreactive fibres occupied the superficial part of the granule cell layer and the lowest part of the molecular layer. Closer examination of the calretinin-positive cells revealed that they formed two distinct cell groups. One group of cells, found exclusively in the stratum lucidum of the CA3 area and in the hilus of the dentate gyrus, was covered with numerous spines. Their somata and dendrites were restricted to stratum lucidum and to the hilus. Cells of the other group had smooth, often varicose, radially running dendrites, and were present in all areas and layers of the hippocampal formation. Two to three thick primary dendrites arose from the irregularly shaped cell body of spiny cells and emitted fine secondary branches only distally (70-100 microns) from the soma, where they formed a profuse network. The extensive dendritic tree of the cells spread horizontally within stratum lucidum and span a distance of 400-600 microns both in the septotemporal and in the transverse directions. The layer-specific location of these cells and their processes suggested that the majority of their input may derive from mossy fibres. This presumption has been confirmed by electron microscopic examination. A large number of asymmetrical synapses were found to cover the soma, the dendritic shafts and the spines (four to six synapses/spine) of the cells. A large proportion of the synapses were formed by boutons, which showed the distinctive features of mossy fibre terminals. Three to six primary dendrites arose from the multipolar, bipolar or pyramidal-shaped somata of spine-free cells, which were smaller than the somata of spiny cells. The smooth and frequently varicose dendrites branched proximally and ran primarily radially. Dendrites ascended or descended through several layers and received both asymmetrical and symmetrical synapses. In the CA1 subfield, the vertically running dendrites frequently contacted other calretinin-immunoreactive spine-free dendrites or cell bodies. Two or three calretinin-immunoreactive dendrites were often seen to be attached for over 100 or, occasionally, 200 microns and several puncta adherentia were observed between them using the electron microscope.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Calretinin is present in non-pyramidal cells of the rat hippocampus--I. A new type of neuron specifically associated with the mossy fibre system. 158 17

We addressed the question whether the projection neurons of the olfactory bulb, i.e. the mitral and tufted cells, are immunoreactive for the calcium-binding protein, calretinin. The following approaches were adopted: (1) light and electron microscopic calretinin-immunocytochemistry; (2) neuroanatomical tracing combined with calretinin-immunocytochemistry according to double-peroxidase and double-fluorescence protocols; (3) unilateral lesion of the olfactory bulb combined with calretinin-immunocytochemistry. The experiments were carried out in rats. Immunostaining of brain sections revealed weakly calretinin-immunopositive mitral cell bodies. Tufted cells were immunonegative. In contrast, fibers in the lateral olfactory tract were strongly immunopositive. Dense immunostaining was also present in a superficial band in layer I of the olfactory tubercle, piriform cortex, periamygdaloid cortex, and in the lateral entorhinal cortex. In electron microscopic preparations of these target areas we observed immunoreaction product in axons and axon terminals. The latter invariably formed asymmetrical synapses, mostly with dendritic spines. Injections of the neuroanatomical tracer biotinylated dextran amine (BDA) into the olfactory bulb produced labeled fibers which remained completely restricted to the superficial, calretinin-immunopositive band in layer I in the above-mentioned cortical forebrain areas. We noted colocalization of transported BDA and calretinin-immunoreactivity in mitral cells, in fibers in the lateral olfactory tract and in fibers in the piriform cortex. Olfactory bulb lesions produced depletion of calretinin-immunoreactivity in the lateral olfactory tract and the superficial band in the olfactory cortex-related areas. Together these data firmly indicate that mitral cells and their axons are calretinin-immunoreactive.(ABSTRACT TRUNCATED AT 250 WORDS)
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PMID:Calretinin-immunoreactivity in mitral cells of the rat olfactory bulb. 755 32

NMDA receptors are composed of multiple receptor subunit proteins, of which NMDAR1 appears to be a critical component for normal receptor function (Nakanishi, 1992). In this study, quantitative immunocytochemical methods were used at the light and electron microscopic levels to localize NMDAR1 subunits in the primary motor (M1) and somatic sensory (S1) cortex of monkeys, and in the primary visual cortices (V1) of monkey and human. Three principal features of NMDAR1 subunit organization were examined in detail in the monkey cortex: (1) the laminar and cellular distribution patterns, relying in part on double-labeling paradigms with the calcium-binding proteins parvalbumin (PV) and calretinin (CR) as markers for discrete subpopulations of GABAergic interneurons; (2) the codistribution of NMDAR1 subunits with non-NMDA ionotropic receptor subunits; (3) a quantitative assessment of the percentages of asymmetrical synapses in layers II/III, IV, and V/VI that were NMDAR1 immunoreactive. In monkey M1, S1, and V1, NMDAR 1 immunoreactivity was present in all layers, localized primarily to large numbers of pyramidal cell somata and proximal apical dendrites, to presumptive spiny stellate cells in layer IV of V1, and to the vast majority (approximately 80-90%) of PV-immunoreactive cells. By contrast, NMDAR1 immunoreactivity was present in only a very small percentage of the CR-immunoreactive cells (approximately 6-9%). Colocalization with non-NMDA receptor subunits showed that all cells (100%) that contained GluR2/3 subunits were also NMDAR1 immunoreactive. In addition, the complete codistribution of GluR5/6/7 subunits with GluR2/3 subunits suggests, indirectly, that all GluR5/6/7-immunoreactive cells are also NMDAR1 immunoreactive. The laminar and cellular distribution patterns of immunostaining in human V1 were very similar to those in monkey V1. Electron microscopy of monkey sections confirmed an extensive dendritic and synaptic localization of NMDAR1 subunits. Labeling of synapses was present on asymmetrical postsynaptic densities associated with both dendritic shafts and spines. In supragranular layers of V1, a greater percentage of asymmetrical synapses were NMDAR1 immunopositive (44%) in comparison to layer IVC beta (34%) or deep layers (19%). In contrast, in area 3b of S1, the percentage of labeled synapses was greatest in layer IV (45%) in comparison to superficial (26%) and deep (37%) layers, while in M1, the percentages of labeled synapses were similar between superficial (46%) and deep (40%) layers. Taken together, these data indicate that NMDAR1-immunoreactive cells in neocortex represent a morphologically, functionally, and neurochemically heterogeneous population.(ABSTRACT TRUNCATED AT 400 WORDS)
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PMID:Distribution and synaptic localization of immunocytochemically identified NMDA receptor subunit proteins in sensory-motor and visual cortices of monkey and human. 820 75

The distribution of the calcium binding protein, calretinin (CR) has been investigated immunohistochemically in the cerebral cortex of albino rats by light- and electron microscopy. At the light microscopical level the pattern of CR-immunoreactivity (ir) appeared very similar in all regions of the rat cerebral cortex. CR-immunoreactive cells were found sparsely in layer I to layer VI, and frequently also in the white matter of the corpus callosum. All CR-ir neurons revealed morphological characteristics of local interneurons. The calretinin positive interneurons could be grouped according to their laminar occurrence, dendritic arborization and the soma size into 5 cell type classes. Quantitative measurements were performed only in the visual cortex. CR-ir neurons were more frequent in the superficial layers II and III. In all other layers, CR-ir cells are sparsely distributed with no preferential laminar localization. At the electron microscopical level, CR-ir axonal boutons formed frequently symmetrical axo-dendritic contacts. In all animals we observed CR-ir axons forming also synaptses of asymmetrical type. In summary calretinin labelled an interneuronal subpopulation of the rat cerebral cortex, which seemed not to overlap in its distribution and labelled structures to those, containing the related calcium binding proteins parvalbumin and calbindin D-28k.
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PMID:The calcium-binding protein calretinin is localized in a subset of interneurons in the rat cerebral cortex: a light and electron immunohistochemical study. 837 59

Previous observations have shown that the striatum contains a population of neurones that display immunoreactivity for calretinin. In order to morphologically characterize these neurones, sections of the rat striatum were immunostained to reveal calretinin and examined at both light and electron microscopic levels. The striatum contained a small population of calretinin-immunoreactive neurones, which were of medium-size (9-17 microns) and possessed few aspiny, infrequently branching dendrites which tapered to become very thin processes in their most distal portions. Although the calretinin-immunoreactive neurones were homogeneously distributed in the frontal plane, there was a marked rostrocaudal gradient with a much greater density of cells in the rostral than in the caudal parts of the striatum. At the ultrastructural level, calretinin-immunoreactive neurones were seen to possess an indented nucleus and to receive synaptic input from at least three types of boutons. In addition to the calretinin-immunoreactive neurones, the striatum also contained axons and terminal boutons that displayed immunoreactivity for calretinin. At least two types of immunoreactive terminals were identified, those forming symmetrical synaptic specialisations and those forming asymmetrical synaptic specialisations. Approximately 50% formed asymmetrical contacts with spines and 30% formed symmetrical synaptic contact with dendritic shafts. In an attempt to further chemically characterize the calretinin-containing neurones, double pre-embedding immunocytochemistry for calretinin and parvalbumin or choline acetyltransferase was carried out and calretinin immunocytochemistry was combined with histochemistry for NADPH-diaphorase. Analysis of these double-stained sections revealed that the population of calretinin-immunoreactive neurones was distinct from the populations of neurones containing parvalbumin, choline acetyltransferase or NADPH-diaphorase. It is concluded that: (1) on the basis of distribution, morphology, chemistry, ultrastructure and afferent synaptic input, the calretinin-immunoreactive neurones are distinct from the major classes of neurones that have been previously recognised in the striatum; (2) calretinin-immunoreactive terminals are heterogeneous and are probably derived from local calretinin-containing neurones and possibly other sources.
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PMID:Characterization of calretinin-immunoreactive structures in the striatum of the rat. 850 97

The rat nucleus accumbens contains medium-sized, spiny projection neurons and intrinsic, local circuit neurons, or interneurons. Sub-classes of interneurons, revealed by calretinin (CR) or parvalbumin (PV) immunoreactivity or reduced nicotinamide adenine dinucleotide phosphate (NADPH)-diaphorase histochemistry, were compared in the nucleus accumbens core, shell and rostral pole. CR, PV and NADPH-diaphorase-containing neurons are shown to form three non-co-localising populations in these three areas. No significant differences in neuronal population densities were found between the subterritories. NADPH-diaphorase-containing neurons could be further separated morphologically into three sub-groups, but CR- and PV-immunoreactive neurons form homogeneous populations. Ultrastructurally, NADPH-diaphorase-, CR- and PV-containing neurons in the nucleus accumbens all possess nuclear indentations. These are deeper and fewer in neurons immunoreactive for PV than in CR- and NADPH-diaphorase-containing neurons. CR-immunoreactive boutons form asymmetrical and symmetrical synaptic specialisations on spines, dendrites and somata, while PV-immunoreactive boutons make only symmetrical synaptic specialisations. Both CR- and PV-immunoreactive boutons form symmetrical synaptic specialisations with medium-sized spiny neurons and contact other CR- and PV-immunoreactive somata, respectively. A novel non-carcinogenic substrate for the peroxidase reaction (Vector Slate Grey, SG) was found to be characteristically electron-dense and may be distinguishable from the diaminobenzidine reaction product. We conclude that the three markers used in this study are localised in distinct populations of nucleus accumbens interneurons. Our studies of their synaptic connections contribute to an increased understanding of the intrinsic circuitry of this area.
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PMID:A light and electron microscopic study of NADPH-diaphorase-, calretinin- and parvalbumin-containing neurons in the rat nucleus accumbens. 870 62

To characterize the neural circuitry and plasticity of the septohabenular pathway, the present study analyzes the distribution of calretinin-immunoreactive fibers within the normal and deafferented medial habenula (MHb) at the light and ultrastructural levels. In the adult rat, a dense plexus of calretinin-positive fibers was found throughout the entire MHb neuropil; these immunoreactive terminals formed asymmetric synaptic contacts with unstained dendritic profiles. Calretinin-positive axons that innervate the MHb originated from neurons of the ipsilateral posterior septum, specifically those of the nucleus septofimbrialis and the nucleus triangularis. Unilateral deafferentation of the MHb resulted in the complete loss of calretinin-immunostained fibers within the ipsilateral MHb after 7 days; no reduction was apparent on the contralateral side. Four weeks after unilateral MHb deafferentation, new calretinin-immunoreactive fibers were found confined to the caudal regions of the MHb, these axons again formed asymmetrical contacts with unstained dendritic profiles. No calretinin-positive axons, however, were found within the MHb at 4 weeks following bilateral deafferentation, thus suggesting that the source of these new fibers within the long-term deafferented MHb arises from the contralateral septal neurons. Supporting this idea, injections of biotinylated dextran amine into the 4-week deafferented MHb resulted in retrogradely labeled somata observed in the contralateral posterior septum. These data reveal that septal projections to the MHb, which are normally ipsilateral, respond to a unilateral deafferentation by extending contralateral fibers that cross the midline at the habenular commissure and reinnervate the caudal regions of the nucleus.
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PMID:Distribution of calretinin-immunoreactive septal axons in the normal and deafferented medial habenula of adult rats. 891 Jul 37

The cellular and synaptic localization of immunoreactivity for the N-methyl-D-aspartate (NMDA) receptor subunit, NMDAR1, was investigated in inferotemporal and prefrontal association neocortices of monkeys and humans. In all monkey association areas examined, the laminar distribution patterns of NMDAR1 immunoreactivity were similar, and characterized by predominant pyramidal-like neuronal labeling in layers II, III, V and VI and a dense neuropil labeling consisting of intensely stained puncta and fine-caliber processes present throughout layers I-III, and V-VI. Layer IV, in contrast, contained only very lightly immunostained neurons which mostly lacked extensive dendritic staining. The laminar distribution of NMDAR1 immunolabeling in human association cortex was similar to that observed in monkeys. Electron microscopy of monkey areas 46 and TE1 confirmed that intensely immunoreactive asymmetrical postsynaptic densities were present throughout all cell-dense layers of prefrontal and inferotemporal association cortex. Quantitative analyses of the laminar proportions of immunoreactive synapses demonstrated that in both areas examined, the percentages of immunolabeled synapses were mostly similar across superficial layers, layer IV and infragranular layers. Finally, quantitative double-labeling immunofluorescence for non-NMDA receptor subunits or calcium-binding proteins demonstrated that virtually all GluR2/3 or GluR5/6/7-immunoreactive neurons were also labeled for NMDAR1, while regionally-specific subsets of parvalbumin-, calbindin- and calretinin-immunoreactive neurons were co-labeled. These data indicate that in primate association cortex, NMDA receptors are heterogeneously distributed to subsets of functionally distinct types of neurons and subsets of excitatory synapses, suggesting a critical and highly specific role in mediating the activity of excitatory connectivity which converges on cortical association areas.
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PMID:Quantitative localization of NMDAR1 receptor subunit immunoreactivity in inferotemporal and prefrontal association cortices of monkey and human. 913 25

The present study describes the distribution and structural features of calretinin-immunoreactive neurons and fiber plexuses in the cerebral cortex of a lacertid lizard, at the light and electron microscopic levels, and also examines the colocalization of calretinin with parvalbumin and gamma-aminobutyric acid (GABA) in certain cortical regions. Calretinin-immunoreactive neurons are present throughout the cerebral cortex of Psammodromus and can be classified according to morphological and neurochemical criteria. Neurons in the medial cortex are small, spine-free and lack parvalbumin, whereas in the lateral cortex, calretinin-immunoreactive neurons display sparsely spiny dendrites and also lack parvalbumin. The dorsomedial and dorsal cortices contain most of the calretinin cortical neurons, which were located almost exclusively in the deep plexiform layer. These neurons are large, with an extensive spine-free dendritic tree. Most of the calretinin-immunoreactive neurons of dorsomedial and dorsal cortices are GABAergic and contain parvalbumin. Calretinin-immunoreactive fibers form two main afferent systems in the cortical areas. One probably intrinsic inhibitory system, arising from the calretinin and parvalbumin GABAergic neurons in the dorsomedial and dorsal cortices, makes symmetrical synapses on the soma and proximal dendrites of neurons located in the cell layers of the same cortical areas. The other system is formed by extremely thin axons running within the superficial plexiform layers of the medial, dorsomedial and dorsal cortices. These axons make asymmetrical synapses on dendrites or dendritic spines. We suggest that this system, probably extrinsic excitatory, arises from neurons located in the basal forebrain.
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PMID:Calretinin immunoreactivity in the cerebral cortex of the lizard Psammodromus algirus: a light and electron microscopic study. 918

Previous immunocytochemical studies in the cerebral cortex of various species have shown that the calcium-binding protein calretinin (CR) labels specific subpopulations of nonspiny nonpyramidal cells (interneurons). The present study attempts to characterize morphologically and chemically the microcircuitry of CR-immunoreactive (CR-ir) neurons in the human temporal neocortex. Postembedding immunocytochemistry for CR and GABA and combination immunocytochemistry for CR and nonphosphorylated neurofilament protein (NPNFP) or for CR and the calcium-binding proteins parvalbumin (PV) and calbindin (CB) showed CR multiterminal endings frequently innervating the distal apical dendrite or the cell body and proximal dendrites of NPNFP-ir or CB-ir pyramidal cells, respectively. Cell bodies of interneurons immunoreactive for CB or PV were innervated only occasionally by CR multiterminal endings, whereas certain GABA neurons were surrounded by them. Furthermore, CR-ir axon terminals formed either symmetrical (the majority) or asymmetrical synapses with a variety of postsynaptic elements. These results indicate that different subpopulations of CR interneurons exist that are specialized for selective innervation of somatic or dendritic regions of certain pyramidal and nonpyramidal neurons.
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PMID:Synaptic connections of calretinin-immunoreactive neurons in the human neocortex. 918 52


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