Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0036572 (seizures)
 80,221 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

krox 20 is an inducible immediate early response gene. To determine if krox 20 has a physiological role in the adult central nervous system (CNS), this study sought to demonstrate the presence of krox 20 in adult rat brain. RNA analysis showed the presence of krox 20 transcripts in the CNS, including the cortex. Polyclonal antibodies to a Krox 20 fusion protein demonstrated 79 and 55 kDa antigens in nuclear CNS homogenates. Neither RNA nor protein analysis was able to demonstrate an induction of krox 20 by a seizure at times when other immediate early response genes are known to be induced. Immunohistochemical analysis revealed staining at several levels throughout the nervous system. This staining was predominantly nuclear, consistent with the role of krox 20 as a transcription factor. These data show that krox 20 is present in the adult CNS, yet differs in response to stimuli as compared to other related transcription factors with a zinc finger motif, such as NGFI-A and NGFI-C.
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PMID:krox 20 messenger RNA and protein expression in the adult central nervous system. 132 8

We have cloned NGFI-C, a nerve growth factor-induced early-response gene which encodes a Cys2/His2 zinc finger protein. RNA blot analysis demonstrates that NGFI-C mRNA is induced within minutes of stimulation of PC12 cells by nerve growth factor and is similarly activated in brain after a Metrazol-induced seizure. The cDNA sequence predicts a protein that contains three zinc fingers which show striking homology to the DNA-binding regions of three previously reported zinc finger proteins, NGFI-A, Krox-20, and the Wilms' tumor gene product. NGFI-C binds to the previously described DNA-binding site of these three proteins, which is GCGGGGGCG. Cotransfection experiments revealed that NGFI-C strongly activates transcription from this site in mammalian cells. The isolation of another early-response gene that encodes a member of the G(C/G)G or GSG element-binding family should provide an opportunity to investigate the relative contributions of a family of transcription factors to the cell's response to changes in its environment.
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PMID:The early response gene NGFI-C encodes a zinc finger transcriptional activator and is a member of the GCGGGGGCG (GSG) element-binding protein family. 207 95

NGFI-C is an early response gene which encodes a Cys2/His2 zinc finger protein. NGFI-C has previously been demonstrated to be inducible in PC12 cells after NGF stimulation. This study sought to localize this gene in somatosensory cortex, and investigate its possible induction by physiological and seizure stimuli. To determine if NGFI-C message levels are affected by stimulation, RT-PCR was performed on mRNA extracts from somatosensory cortex. NGFI-C mRNA levels were increased to levels four-fold over baseline after a seizure. In a paradigm used as a model of experience-dependent plasticity, vibrissae stimulation also increased the level of NGFI-C expression in the contralateral barrel cortex to 180% of control levels. In situ analysis using digoxigenin-labelled cRNA probes demonstrated NGFI-C containing neurons throughout layers 2 through 6 in somatosensory cortex. A higher cell density was seen after stimulation. Qualitatively, staining was more intense in post-seizure and post-stimulus cortex than in control cortex. Analysis of related zinc finger expression in serial sections revealed that NGFI-C is expressed in a distinct but overlapping cell populations relative to NGFI-A, Krox 20, and Egr-3. These studies demonstrate the inducible nature of NGFI-C message in response to a physiological vibrissae stimulus, as well as to seizures. However, the levels and pattern of expression differ between these two stimuli.
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PMID:NGFI-C expression is affected by physiological stimulation and seizures in the somatosensory cortex. 776 89

In the present study in situ hybridization was used to study the effect of kainic acid induced seizures on the expression of the zinc finger immediate-early genes (IEGs) NGFI-A, NGFI-B, NGFI-C, egr-2; egr-3 and Nurr1. Kainic acid markedly induced these IEGs especially in hippocampus, cortex and amygdala by 30 min. This induction gradually decreased and returned to baseline by 24 h in most regions. However, in the CA1 and CA3 subfields of hippocampus known to be damaged by kainic acid the expression of all the IEGs except egr-2 remained elevated for 24 h. NGFI-A, NGFI-B, NGFI-C and to a lesser extent, Nurr1, remained elevated also in the subcortical region of the temporal lobe. By 24 h incorporation of 14C-leucine decreased in the piriform cortex, amygdala, and in the CA1 and CA3 subfields, but not in CA2 and dentate gyrus. These areas showing decreased protein synthesis in the hippocampus by 24 h showed prolonged IEG induction, whereas IEG expression returned to control levels in areas showing normal protein synthesis. In the temporal lobe decreased protein synthesis coexisted with decreased IEG expression, whereas areas in the vicinity of the region showing decreased protein synthesis demonstrated elevated IEG expression. The decreased protein synthesis was localized in areas where extensive neuronal death has occurred. This prolonged IEG induction in the hippocampus, which has been linked with neuronal death, could solely represent a prolonged mRNA turnover caused by disrupted protein synthesis. The prolonged IEG expression in the temporal lobe appeared to be localized in regions where the cells are in stress, but still viable. The sustained IEG expression might therefore either represent a stress response by which the neurons are trying to protect themselves or, alternatively, the IEG response may be an early sign indicating that these cells are initiating a pathway leading to programmed cell death.
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PMID:Prolonged expression of zinc finger immediate-early gene mRNAs and decreased protein synthesis following kainic acid induced seizures. 998 7