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)

Using mice genetically deficient in the complement (C)-system component C5, this study explored a potential novel role of the C-system in Ca(2+)-mediated control of glutamate AMPA receptor functions. We found that Ca2+ preincubation of frozen brain tissue sections enhances AMPA binding capacity more dynamically in C5 deficient (C5-) than congenic C5 sufficient (C5+) mice. The Ca(2+)-mediated response was mostly localized to the CA3 and CA1 subdivisions of the pyramidal layers of the hippocampal formation. In C5- mice, kainic acid (KA) excitotoxicity that models hippocampal neurodegeneration abolished the Ca(2+)-mediated induction of hippocampal AMPA binding. The changes in AMPA binding preceded temporally and overlapped anatomically the appearance of apoptotic features in the same hippocampal neuron layers. C5- mice showed greater hippocampal neurodegeneration then C5+ mice. NMDA binding controlled for specificity of glutamate-mediated changes and found no C5 genotypic influences. The study gives further credence to the role of the C-system in modifying the intensity and outcome during response to conditions leading to hippocampal neurodegeneration.
Mol Chem Neuropathol 1997 Aug
PMID:Complement and glutamate neurotoxicity. Genotypic influences of C5 in a mouse model of hippocampal neurodegeneration. 933 70

Growth hormone release is under tight control by two hypothalamic hormones: growth hormone-releasing hormone and somatostatin. In addition, synthetic growth hormone secretagogues have also been shown to regulate growth hormone release through the growth hormone secretagogue receptor (GHS-R), suggesting the existence of an additional physiological regulator for growth hormone release. To understand the physiological role of the GHS-R in more detail, we mapped the expression of mRNA for the receptor by in situ hybridization and RNase protection assays using rat and human tissues. In the rat brain, the major signals were detected in multiple hypothalamic nuclei as well as in the pituitary gland. Intense signals were also observed in the dentate gyrus of the hippocampal formation. Other brain areas that displayed localized and discrete signals for the receptor include the CA2 and CA3 regions of the hippocampus, the substantia nigra, ventral tegmental area, and dorsal and median raphe nuclei. In resemblance to the results from rat brain, RNase protection assays using human tissues revealed specific signals in pituitary, hypothalamus and hippocampus. Moreover, a weak signal was noted in the pancreas. The demonstration of hypothalamic and pituitary localization of the GHS-R is consistent with its role in regulating growth hormone release. The expression of the receptor in other central and peripheral regions may implicate its involvement in additional as yet undefined physiological functions.
Brain Res Mol Brain Res 1997 Aug
PMID:Distribution of mRNA encoding the growth hormone secretagogue receptor in brain and peripheral tissues. 937 45

Kainate-induced seizure activity causes persistent changes in the hippocampus that include synaptic reorganization and functional changes in the mossy fibers. Using in situ hybridization histochemistry, the expression of PKC alpha, PKC beta, PKC gamma, PKC delta and PKC epsilon mRNAs was investigated in the hippocampus of adult rats following seizures induced by a s.c. injection of kainic acid. In CA1 and CA3, we found a significant decrease in PKC gamma mRNA 1 day after kainic acid which persisted for a 2nd day in CA1. None of the other PKC isoform mRNAs were altered in CA1 or CA3. In granule cells, a significant up-regulation specific to PKC epsilon mRNA was observed. One week after kainic acid administration, a marked increase in PKC epsilon immunoreactivity was found that persisted 2 months after kainic acid administration. PKC epsilon immunoreactivity was found associated with mossy fibers projecting to the hilus of the dentate gyrus and to the stratum lucidum of the CA3 field and presumably with the newly sprouted mossy fibers projecting to the supragranular layer. These data provide the first evidence for a long-lasting increase of the PKC epsilon in the axons of granule cells caused by kainate-induced seizures and suggest that PKC epsilon may be involved in the functional and/or structural modifications of granule cells that occur after limbic seizures.
Brain Res Mol Brain Res 1997 Oct 03
PMID:Selective up-regulation of protein kinase C epsilon in granule cells after kainic acid-induced seizures in rat. 938 78

Recent in vitro studies indicate an involvement of members of the interleukin-1beta converting enzyme (ICE) family of proteases in programmed neuronal cell death. Cell death of hippocampal neurons in animal models of cerebral ischemia and epilepsy shows morphological features of apoptosis and can be prevented by administration of protein synthesis inhibitors suggesting that de novo synthesis of components of the cell death program is necessary for neuronal apoptosis. In the present study we demonstrate by in situ hybridization analysis that expression of CPP-32, an ICE-related protease, is significantly upregulated in CA1 hippocampal neurons following global ischemia induced by cardiac arrest and in hippocampal neurons of the CA3/CA4 region after kainate-mediated epilepsy, respectively. Moreover, an increase in CPP-32-like proteolytic activity was detected in hippocampal extracts 24 h after ischemia using the fluorogenic CPP-32 substrate Ac-DEVD-AMC. Activation of CPP-32 clearly preceded cell death of hippocampal neurons as assessed by in situ end-labelling of nuclear DNA fragments. These results indicate that CPP-32 protease may be activated at both the transcriptional and post-translational level during neuronal apoptosis and that activation correlates with the selective vulnerability of hippocampal pyramidal neurons to ischemic and epileptic insults.
Brain Res Mol Brain Res 1997 Oct 15
PMID:Activation of CPP-32 protease in hippocampal neurons following ischemia and epilepsy. 940 13

The in situ hybridization technique was used to examine the expression of type 2 interleukin-1 receptor (IL-1R2) mRNA in the rat brain following the systemic injection of kainic acid at a convulsive dose. The expression of IL-1R2 mRNA was not detected in any brain regions of the saline-injected control rats. 8 h after the systemic injection of kainic acid, weak expression of IL-1R2 mRNA was observed in the dentate gyrus and basolateral amygdaloid nucleus. At 12 and 24 h after the injection of kainic acid, IL-1R2 mRNA was markedly induced in various brain regions including the CA1 and CA3 fields of the hippocampus, dentate gyrus, basolateral amygdaloid nucleus, piniform cortex, claustrum, tenia tecta, arcuate hypothalamic nucleus, dorsomedial hypothalamic nucleus, suprachiasmatic nucleus, tuberal magnocellular nucleus and supramammillary nucleus. In these regions, the signals of IL-1R2 mRNA were observed on likely neuronal cells. Around the mediodorsal thalamic nucleus and the paraventricular thalamic nucleus, dispersed intense signals were observed on the non-neuronal cells. In addition, the expression of the mRNA on the venules was observed at 12 h. The strength of signals significantly decreased by 48 h after the injection. These findings revealed the spatiotemporal induction of IL-1R2 mRNA in the rat brain following the systemic administration of kainic acid, which has shown to cause neuronal degeneration, suggesting the pathological roles of IL-1R2 in the brain.
Brain Res Mol Brain Res 1997 Oct 15
PMID:Type 2 interleukin-1 receptor mRNA is induced by kainic acid in the rat brain. 940 40

The establishment of a focus of epileptiform activity in the hippocampus of the rat, using the kindling paradigm, leads to enhanced voltage-dependent calcium conductance of CA1 pyramidal neurones (G.C. Faas, M. Vreugdenhil, W.J. Wadman, Calcium currents in pyramidal CA1 neurones in vitro after kindling epileptogenesis in the hippocampus of the rat, Neuroscience 75 (1996) 57-67; M. Vreugdenhil, W.J. Wadman, Kindling-induced long-lasting enhancement of calcium in hippocampal CA1 area of the rat: relation to calcium-dependent inactivation, Neuroscience 59 (1994) 105-114). Using semi-quantitative in situ hybridization techniques, we investigated whether these changes were associated with an altered expression of the genes that encode for the alpha1A-E-subunits of the voltage-dependent calcium channels (VDCC). Kindling epileptogenesis was induced in rats that received an electrical tetanic stimulation of the Schaffer collateral/commissural fibre pathway in the hippocampus twice daily. Two groups of rats were studied before the appearance of generalized seizures, one group after at least 5 generalized seizures (fully kindled) and one group was investigated at long-term (28 days) after the last seizure. During the initial stages of epileptogenesis, the alpha1A-, alpha1D- and alpha1E-subunit mRNA levels were significantly increased in the different hippocampal subareas in comparison to the levels in control animals. In contrast, alpha1B-subunit gene expression decreased in the CA area and dentate gyrus. No significant change was observed in the alpha1C-I and alpha1C-II expression. At the fully kindled stage, the only significant change was an up-regulation of the alpha1B-subunit mRNA levels in the CA3 area, 24 h after the last seizure. No change in VDCC alpha1-subunit gene expression was found in animals investigated long-term after the establishment of the fully kindled state. Thus, the VDCC alpha1-subunit gene expression is altered in a subclass-specific manner during the early stages of kindling and may play a role in the establishment of a kindled focus, possibly caused by an alteration of the population of VDCCs involved in neurotransmitter release. The absence of long-lasting changes suggests that the maintenance of a kindled focus is not due to persisting alterations in VDCC alpha1 mRNA levels.
Brain Res Mol Brain Res 1997 Oct 15
PMID:Changes in voltage-dependent calcium channel alpha1-subunit mRNA levels in the kindling model of epileptogenesis. 940 42

Receptor autoradiography with the Y2 receptor ligand 125I-peptide YY3-36 and in situ hybridization were applied to investigate changes in neuropeptide tyrosine-Y2 receptor expression after kainic acid-induced recurrent seizures in the rat hippocampus. In the strata oriens and radiatum of CA1 to CA3, which are densely innervated by Y2 receptor-bearing Schaffer collateral terminals, a transient 2-fold increase in Y2 receptor affinity was observed after 4-12 hr, with a later slow decline. No change was seen in Y2 mRNA expression in CA2/CA3 pyramidal cells, from which Schaffer collaterals originate. Conversely, in granule cells of the dentate gyrus, markedly elevated Y2 mRNA concentrations were observed (by 740% in the dorsal hippocampus) 24-48 hr after kainate injection. At the same time, a marked and lasting (up to 6 months) increase in the number of Y2 receptor sites (by 800%) was seen in the dentate hilus, which is innervated densely by mossy fibers. The early increase in Y2 receptor affinity in Schaffer collaterals was accompanied by a 60% decrease in the EC50 of peptide YY3-36 in inhibiting K(+)-stimulated glutamate release in hippocampal slices from kainic acid-treated rats. Our data indicate transient up-regulation of presynaptic Y2 receptors in Schaffer collaterals by a change in affinity and a permanent de novo synthesis of presynaptic Y2 receptors in granule cells/mossy fibers. These changes may cause augmented presynaptic inhibition of glutamate release from different hippocampal sites and, in conjunction with increased concentrations of neuropeptide tyrosine in mossy fibers, may represent an endogenous reactive anticonvulsant mechanism.
Mol Pharmacol 1998 Jan
PMID:Up-regulation of neuropeptide Y-Y2 receptors in an animal model of temporal lobe epilepsy. 944 27

The calcium-activated neutral proteases (CANP, calpains) have been implicated in both acute and chronic neurodegenerative processes. In the present study, we analyzed the in situ mRNA expression of calpain I and II and their endogenous inhibitor, calpastatin, in the motor neuron degeneration (Mnd) mutant mouse, which exhibits progressive dysfunction of the spinal cord and brain. As the disease progresses, the mutants show increasingly pronounced motor abnormalities which coincide with swelling of the spinal motor neurons, neocortex, hippocampal CA regions and cerebellar Purkinje cells. In situ hybridization studies show that the Mnd mice have a significantly higher level of calpain I, calpain II and calpastatin than the congenic controls in the following brain regions and cell types: hippocampal CA3 region, pyramidal cells, cerebellar Purkinje cells and spinal cord motor neurons. However, no differences in calpain or calpastatin mRNA levels are observed in glial and cerebellar granule cells of Mnd and control mice. Western blots and competitive RT-PCR analyses of brain and spinal cord homogenates are confirmative. Such altered gene expression in specific cell types of brain and spinal cord suggests the involvement of the calpain/calpastatin system.
Brain Res Mol Brain Res 1998 Jan
PMID:Altered gene expression for calpain/calpastatin system in motor neuron degeneration (Mnd) mutant mouse brain and spinal cord. 947 62

Environmental enrichment augments neuronal plasticity and cognitive function and possible mediators of these changes are of considerable interest. In this study, male rats were exposed to environmental enrichment or single housing for 30 days. Rats from the enriched group had significantly higher 5-HT1A receptor mRNA expression in the dorsal hippocampus (62%, 59% and 44% increase in the CA1, CA2 and CA3 subfields, respectively). This was associated with significantly higher [3H]8-OH-DPAT binding in the inferior part of CA1. No changes were seen for 5-HT2A or 5-HT2C receptor mRNAs. The neuronal plasticity detected after environmental change may be mediated, in part, through 5-HT1A receptors.
Brain Res Mol Brain Res 1998 Jan
PMID:Environmental enrichment selectively increases 5-HT1A receptor mRNA expression and binding in the rat hippocampus. 947 97

The expression of hexokinase messenger RNA was evaluated in human hippocampus using in situ hybridization technique. The message showed an uneven distribution with high levels present in the granular cell layer of the dentate gyrus and CA3 region. The detection of specific transcripts was also observed in the lateral geniculate nucleus, the dentate polymorphic cell layer and the parahippocampal gyrus. The data suggest that, in the hippocampus, the expression of hexokinase is higher in neurons than in glial cells and that the rate of glucose metabolism may display considerable variations in the different subregions of this area.
Brain Res Mol Brain Res 1998 Jan
PMID:Expression of hexokinase mRNA in human hippocampus. 947 2


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