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)

Changes in interneuron distribution and excitatory connectivity have been investigated in animals which had survived 12-14 months after complete forebrain ischemia, induced by four-vessel occlusion. Anterograde tracing with Phaseolus vulgaris leucoagglutinin revealed massive Schaffer collateral input even to those regions of the CA1 subfield where hardly any surviving pyramidal cells were found. Boutons of these Schaffer collaterals formed conventional synaptic contacts on dendritic spines and shafts, many of which likely belong to interneurons. Mossy fibres survived the ischemic challenge, however, large mossy terminals showed altered morphology, namely, the number of filopodiae on these terminals decreased significantly. The entorhinal input to the hippocampus did not show any morphological alterations. The distribution of interneurons was investigated by neurochemical markers known to label functionally distinct GABAergic cell populations. In the hilus, spiny interneurons showed a profound decrease in number. This phenomenon was not as obvious in CA3, but the spiny metabotropic glutamate receptor 1alpha-positive non-pyramidal cells, some of which contain calretinin or substance P receptor, disappeared from stratum lucidum of this area. In the CA1 region, somatostatin immunoreactivity disappeared from stratum oriens/lacunosum-moleculare-associated cells, while in metabotropic glutamate receptor 1alpha-stained sections these cells seemed unaffected in number. Other interneurons did not show an obvious decrease in number. In stratum radiatum of the CA1 subfield, some interneuron types had altered morphology: the substance P receptor-positive dendrites lost their characteristic radial orientation, and the metabotropic glutamate receptor 1alpha-expressing cells became extremely spiny. The loss of inhibitory interneurons at the first two stages of the trisynaptic loop coupled with a well-preserved excitatory connectivity among the subfields suggests that hyperexcitability in the surviving dentate gyrus and CA3 may persist even a year after the ischemic impact. The dorsal CA1 region is lost; nevertheless hyperactivity, if it occurs, may have a route to leave the hippocampus via the longitudinally extensive axon collaterals of CA3 pyramidal cells, which may activate the subiculum and entorhinal cortex with a relay in the surviving ventral hippocampal CA1 region.
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PMID:Changes in excitatory and inhibitory circuits of the rat hippocampus 12-14 months after complete forebrain ischemia. 1039 28

Immunocytochemical and autoradiographic methods were used to localize the GABA(B) receptor in the normal rat hippocampus. GABA(B) receptor 1-like immunoreactivity (GBR1-LI) was most intense in presumed GABAergic interneurons of all hippocampal subregions. It was also present throughout the hippocampal neuropil, where it was most intense in the dendritic strata of the dentate gyrus, which are innervated by the perforant pathway and inhibitory dentate hilar cells, and in strata oriens and radiatum of area CA3. The dendritic regions of area CA1 exhibited less GBR1-LI than area CA3. GBR1-LI was detectable in the somata of CA1 pyramidal cells, but was minimal or undetectable within the somata of dentate granule cells and CA3 pyramidal cells. GBR1-LI was similarly minimal in the dentate hilar neuropil, and in stratum lucidum, the two regions that contain granule cell axons and terminals. Nor was GBR1-LI detectable in the inhibitory basket cell fiber systems that surround hippocampal principal cell somata. Fluorescence co-localization studies indicated that significant proportions of interneurons expressing somatostatin, neuropeptide Y, cholecystokinin, calbindin, or calretinin also expressed GBR1-LI constitutively. Conversely, parvalbumin-positive GABAergic basket cells of the dentate gyrus and hippocampus, which form GABA(A) receptor-mediated inhibitory axo-somatic synapses, rarely contained detectable GBR1-LI. High resolution autoradiography with the GABA(B) receptor antagonist CGP 62349 revealed a close correspondence between receptor ligand binding and GBR1-LI, with several notable exceptions. Ligand binding closely matched GBR1-LI throughout the hippocampal, cortical, thalamic, and cerebellar neuropil. However, the hippocampal interneuron somata and dendrites that exhibited the most intense GBR1-LI, and the GBR1-positive somata of CA1 pyramidal cells, did not exhibit a similar density of [3H]-CGP 62349 binding. These data clarify the relationship between immunocytochemically identified receptor protein and potentially functional receptors, indicating that GBR1-LI reflects both non-functional cytoplasmic GBR1 and the ligand-bindable form of the protein, both before dimerization with GBR2 and after translocation to functional sites within cells. The staining and binding patterns further suggest that GBR1 is constitutively expressed in specific neuronal populations, and may exist in higher concentration in the axons of inhibitory hippocampal pathways that innervate dendritic zones, than in axo-somatic inhibitory terminals. Whether GBR1 is inducible in cells that contain GBR1 mRNA, but no detectable constitutive protein, remains to be determined in experimental studies.
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PMID:Localization of GABA(B) (R1) receptors in the rat hippocampus by immunocytochemistry and high resolution autoradiography, with specific reference to its localization in identified hippocampal interneuron subpopulations. 1058 87

Human cortical heterotopia and neuronal migration disorders result in epilepsy; however, the precise mechanisms remain elusive. Here we demonstrate severe neuronal dysplasia and heterotopia throughout the granule cell and pyramidal cell layers of mice containing a heterozygous deletion of Lis1, a mouse model of human 17p13.3-linked lissencephaly. Birth-dating analysis using bromodeoxyuridine revealed that neurons in Lis1+/- murine hippocampus are born at the appropriate time but fail in migration to form a defined cell layer. Heterotopic pyramidal neurons in Lis1+/- mice were stunted and possessed fewer dendritic branches, whereas dentate granule cells were hypertrophic and formed spiny basilar dendrites from which the principal axon emerged. Both somatostatin- and parvalbumin-containing inhibitory neurons were heterotopic and displaced into both stratum radiatum and stratum lacunosum-moleculare. Mechanisms of synaptic transmission were severely disrupted, revealing hyperexcitability at Schaffer collateral-CA1 synapses and depression of mossy fiber-CA3 transmission. In addition, the dynamic range of frequency-dependent facilitation of Lis1+/- mossy fiber transmission was less than that of wild type. Consequently, Lis1+/- hippocampi are prone to interictal electrographic seizure activity in an elevated [K(+)](o) model of epilepsy. In Lis1+/- hippocampus, intense interictal bursting was observed on elevation of extracellular potassium to 6.5 mM, a condition that resulted in only minimal bursting in wild type. These anatomical and physiological hippocampal defects may provide a neuronal basis for seizures associated with lissencephaly.
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PMID:Hippocampal abnormalities and enhanced excitability in a murine model of human lissencephaly. 1072 24

The colocalization of parvalbumin (PV) and somatostatin (SS)-like immunoreactivity was studied quantitatively in the mouse hippocampus, with particular reference to their areal and dorsoventral differences. The optical disector method was applied by using a confocal laser scanning microscope with immunofluorescent double-labeling. In the present study, we found a particular subpopulation of hippocampal nonprincipal neurons that contained both PV and SS-like immunoreactivity, i.e., PV-immunoreactive (IR)/SS-like immunoreactive (LIR) neurons. In the CA1 region, PV-IR/SS-LIR neurons were restricted to the stratum oriens (SO). In the CA3 region, they were scattered in the SO, stratum pyramidale (SP), and stratum radiatum (SR). However, they were rarely seen in the dentate gyrus (DG). The proportion of PV-IR/SS-LIR neurons in the PV-IR neurons or SS-LIR neurons was about 10% in the CA1 region, 15-30% in the CA3 region, 0-5% in the DG, and 10-20% in total. Laminar analysis revealed that the proportions of PV-IR/SS-LIR neurons in the PV-IR neurons were high in the SO (about 25%) of the CA1 region, and in the SO (about 50%) and SR (30-45%) of the CA3 region. The proportion of PV-IR/SS-LIR neurons in the SS-LIR neurons was low in the SO of the CA1 region (about 10%), but high in the SO (35-65%) and SR (35-45%) of the CA3 region. Morphologically, medium-sized horizontal fusiform and multipolar PV-IR/SS-LIR neurons were frequently observed, and they showed weak immunoreactivity for PV. Large-sized vertical bitufted and triangular PV-IR neurons lacked SS-like immunoreactivity, and most of them showed moderate to intense immunoreactivity for PV. In addition, we provide direct evidence that some PV-IR/SS-LIR neurons projected to the medial septum by using retrograde labeling with Fluoro-Gold injection. These observations indicate that PV-IR/SS-LIR neurons constitute a particular subpopulation of hippocampal nonprincipal neurons.
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PMID:Colocalization of parvalbumin and somatostatin-like immunoreactivity in the mouse hippocampus: quantitative analysis with optical dissector. 1107 41

We have demonstrated that FK960 [N-(4-acetyl-1-piperazinyl)-p-fluorobenzamide monohydrate], a novel putative anti-dementia drug of piperazine derivative, ameliorates memory deficits in a variety of animal models of dementia in rats and monkeys, and also augments long-term potentiation (LTP) in the mossy fiber-CA3 pathway in guinea-pig hippocampal slices. Our recent studies have further suggested that somatostatin activation could be a primary mechanism of the pharmacological action of FK960. To clarify the mode of action of FK960 on somatostatinergic neurotransmission, FK960 was examined for its effects on somatostatin release from rat hippocampal slices. FK960 significantly enhanced high K(+)-evoked release, but not basal release, of somatostatin with similar concentration-dependency to its LTP augmenting action. On the other hands, FK960 had no effects on the release of neurotransmitters such as acetylcholine, 5-HT, D-aspartate or GABA from hippocampal slices. Our results provide compelling evidence that FK960 exerts specific and facilitatory actions on neural mechanisms involved in the activity-dependent release of somatostatin from nerve terminals of the hippocampus. These results also strengthen the view that FK960 regulates cognitive functions and augments LTP through an activation of the somatostatinergic nervous system in the hippocampus.
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PMID:FK960, a novel potential anti-dementia drug, enhances high K(+)-evoked release of somatostatin from rat hippocampal slices. 1117 55

We examined how transient cerebral ischemia affects the mRNA expression, and the immunoreactive distribution, of the somatostatin type 2 (sst2) receptor in the adult rat hippocampus. Following reperfusion, sst2 mRNA levels increased significantly in the CA1 region by 3 h, and were also increased in the CA3 and CA4/hilus subfields at 6 and 12 h. At 24 h, however, sst2 receptor mRNA levels returned to baseline throughout the hippocampus. At the protein level, we found the regional immunoreactivity of the sst2a receptor was maintained, or slightly elevated, throughout the hippocampus at 6 h, but not different from control at 24 h. These results suggest that sst2 receptors maintain their normal distribution and prevalence in the post-ischemic hippocampus before the deterioration of the vulnerable CA1 neurons. Thus, they represent attractive targets for neuroprotective interventions.
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PMID:Somatostatin type 2 receptor expression in the rat hippocampus following cerebral ischemia. 1144 16

Status epilepticus causes neuronal damage that is associated with cognitive impairment. The present study examined whether a novel antiepileptic drug, lamotrigine (LTG), alleviates status epilepticus-induced temporal lobe damage and memory impairment, and compared its efficacy with carbamazepine. Status epilepticus was induced by electric stimulation of the perforant pathway (PP) in rats. Treatment with LTG (12.5 mg/kg, twice a day) was started either 3 days before (preLTG group) or 1 h after (postLTG group) a 60 min PP stimulation. Treatment with carbamazepine (CBZ; 30 mg/kg, twice a day) was started 3 days before (CBZ group) a 60 min PP stimulation. All treatments were continued for 2 weeks. Thereafter, the severity of seizures, seizure-induced neuronal damage, quantitative electroencephalogram (EEG), and memory impairment were compared between vehicle-treated unstimulated and stimulated controls, LTG-treated rats, and CBZ-pretreated rats. Both in the preLTG and postLTG groups, damage to hilar somatostatin-immunoreactive neurons, hippocampal CA3b and CA3a pyramidal cells, and the piriform cortex was mild and did not differ from that in unstimulated controls. Furthermore, CA3c damage in the preLTG group did not differ from that in unstimulated controls. Vehicle-treated stimulated controls and CBZ-pretreated rats, however, had significant damage in the hilus, CA3 subregions, and piriform cortex compared with unstimulated controls (P<0.05 for the stimulated side, contralateral side, or both). Treatment with LTG or CBZ had no effect on the number or duration of behavioral seizures during PP stimulation. They did not affect the baseline EEG or status epilepticus-induced slowing of the EEG. Also, the status epilepticus-induced spatial memory impairment in the Morris water-maze was not attenuated by treatment with LTG or CBZ. Our data demonstrate that treatment with LTG has a mild neuroprotective effect on status epilepticus-induced neuronal damage in rats even when administered after the beginning of status epilepticus.
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PMID:Effect of lamotrigine treatment on status epilepticus-induced neuronal damage and memory impairment in rat. 1151 23

Improved methods for detecting neuronal markers and the retrograde tracer Fluoro-Gold (FG) were used to identify commissurally projecting neurons of the rat hippocampus. In addition to the dentate hilar mossy cells and CA3 pyramidal cells shown previously to transport retrograde tracers after injection into the dorsal hippocampus, FG-positive interneurons of the dentate granule cell layer and hilus were detected in numbers greater than previously reported. FG labeling of interneurons was variable among animals, but was as high as 96% of hilar somatostatin-positive interneurons, 84% of parvalbumin-positive cells of the granule cell layer and hilus combined, and 33% of hilar calretinin-positive cells. By comparison, interneurons of the dentate molecular layer and all hippocampal subregions were conspicuously FG-negative. Whereas hilar mossy cells and CA3 pyramidal cells were FG-labeled throughout the longitudinal axis, FG-positive interneurons exhibited a relatively homotopic distribution. "Control" injections of FG into the neocortex, septum, and ventral hippocampus demonstrated that the homotopic labeling of dentate interneurons was injection site-specific, and that the CA1-CA3 interneurons unlabeled by contralateral hippocampal FG injection were nonetheless able to transport FG from the septum. These data suggest a hippocampal organizing principle according to which virtually all commissurally projecting hippocampal neurons share the property of being monosynaptic targets of dentate granule cells. Because granule cells innervate their exclusively ipsilateral target cells in a highly lamellar pattern, these results suggest that focal granule cell excitation may result in commissural inhibition of the corresponding "twin" granule cell lamella, thereby lateralizing and amplifying the influence of the initiating discharge.
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PMID:Commissurally projecting inhibitory interneurons of the rat hippocampal dentate gyrus: a colocalization study of neuronal markers and the retrograde tracer Fluoro-gold. 1174 53

The polysialylated form of the neural cell adhesion molecule (PSA-NCAM) continues to be expressed in the adult hippocampus, mainly in a subset of neurons located in the innermost portion of the granule cell layer. PSA-NCAM immunoreactive neurons have also been described outside this layer in humans, where they are severely reduced in schizophrenic brains. Given this important clinical implication, we were interested in finding whether similar neurons existed in the adult rat hippocampus and to characterize their distribution, morphology and phenotype. PSA-NCAM immunocytochemistry reveals labeled neurons in the subiculum, fimbria, alveus, hilus, and stratum oriens, lucidum and radiatum of CA3 and CA1. They are mainly distributed in the ventral hippocampus, and have polygonal or fusiform somata with multipolar or bipolar morphology. These neurons show long straight dendrites, which reach several strata and even enter the fimbria and the alveus. These dendrites are often varicose, appear devoid of excrescences and apparently do not show spines. Most of these neurons display GABA immunoreactivity and further analysis has shown that a subpopulation expresses calretinin, but not somatostatin, neuropeptide Y, parvalbumin, calbindin or NADPH diaphorase. Our study demonstrates that there is an important subpopulation of PSA-NCAM immunoreactive neurons, many of which can be considered interneurons, outside the rat granule cell layer, probably homologous to those described in the human hippocampus. The presence of the polysialylated form of NCAM in these neurons could indicate that they are undergoing continuous remodeling during adulthood and may have an important role in hippocampal structural plasticity.
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PMID:Non-granule PSA-NCAM immunoreactive neurons in the rat hippocampus. 1187 89

The neuropeptide somatostatin acts as a neuromodulator in the CNS in a predominantly inhibitory manner. In this study, an ipsilateral cortical and hippocampal damage in the brain of adult rats was induced by a cortical contusion trauma in order to examine subsequent changes of expression of different somatostatin receptor subtypes (sst). By using subtype specific antibodies we found a clear decline of expression level for sst2A, sst2B, sst3 and sst4 subtypes in the pyramidal cell layer of the ipsilateral hippocampus. Nissl staining revealed that this decline of expression level is due to cell death of sst expressing neurons within the first 48 h after trauma. Additionally we found a progressive infiltration of sst4 positive cells into regions of cortical and hippocampal damage. The number of these cells increases strikingly within the first 3 days after trauma and it seems that their morphology changes from a round to an astrocyte-like shape. Moreover, sst4 and sst2A positive cells accumulate in the ipsilateral ependym and pyramidal-like cells expressing sst4 were found beneath the damaged CA3 pyramidal layer. Taken together, after trauma we found deterioration of sst positive neurons and an additional activation of sst4 and sst2A expressing cells the final fate of which has to be elucidated further.
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PMID:Expression changes of somatostatin receptor subtypes sst2A, sst2B, sst3 and sst4 after a cortical contusion trauma in rats. 1187 9


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