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: UMLS:C0017638 (glioma)
30,880 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Onconase, or P-30, is a protein initially purified from extracts of Rana pipiens oocytes and early embryos based upon its anticancer activity both in vitro and in vivo. It is a basic single-chain protein with an apparent molecular mass of 12,000 daltons and is homologous to RNase A. In cultured 9L glioma cells, onconase inhibits protein synthesis with an IC50 of about 10(-7) M. The inhibition of protein synthesis correlates with cell death determined by clonogenic assays. 125I-Labeled onconase binds to specific sites on cultured 9L glioma cells. Scatchard analysis of the binding data shows that onconase appears to bind to cells with two different affinities, one with a Kd of 6.2 x 10(-8) and another of 2.5 x 10(-7) M. Each cell could bind about 3 x 10(5) molecules of onconase at each of the two affinity sites. The low affinity Kd is similar to the IC50 for onconase toxicity. Onconase also demonstrates a saturability of cytotoxicity at a concentration that would saturate the low affinity binding site. Incubation at 4 degrees C increased the binding of onconase to cells relative to 37 degrees C binding and also increased the sensitivity of cells to onconase toxicity, indicating that receptor binding may be an initial step in cell toxicity. Onconase cytotoxicity can be blocked by metabolic inhibitors, NaN3 and 2-deoxyglucose, and cytotoxicity is potentiated 10-fold by monensin. Ribonuclease activity appears necessary for onconase toxicity because alkylated onconase, which only retains 2% of the ribonuclease activity, was at least 100-fold less potent in inhibiting protein synthesis in cells. Onconase inhibition of protein synthesis in 9L cells coincides with the degradation of cellular 28 S and 18 S rRNA. In contrast to RNase A, onconase is resistant to two RNase inhibitors, placental ribonuclease inhibitor and Inhibit-Ace. Northern hybridization with placental ribonuclease inhibitor cDNA probe indicates that 9L glioma cells contain endogenous placental ribonuclease inhibitor mRNA. Based on these results, we propose that onconase toxicity results from onconase binding to cell surface receptors, internalization to the cell cytosol where it degrades ribosomal RNA, inhibiting protein synthesis and causing cell death.
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PMID:A cytotoxic ribonuclease. Study of the mechanism of onconase cytotoxicity. 848 18

We have recently shown that while brain creatine kinase (CKB) mRNA was detectable in RNA from cultured primary rat brain neurons, CKB mRNA was about 15-fold higher in primary astrocytes and 17-fold higher in oligodendrocytes (Molloy et al., J Neurochem 59:1925-1932, 1992). To begin to understand the molecular mechanisms responsible for brain glial cells containing the highest levels of CKB mRNA in the body, we have examined the expression of rat CKB mRNA in established C6 glioma cells. RNase-protection analysis showed the endogenous CKB mRNA levels in exponentially growing C6 were high and measured 50% of that in total RNA from rat brain lysate and 60% of that in cultured primary astrocytes and oligodendrocytes. The 5' and 3' ends of CKB mRNA in C6 were mapped to the same nucleotides as CKB mRNA from rat brain, indicating that the sites of in vivo transcription initiation and termination/polyadenylation of CKB mRNA in C6 are the same as in total rat brain RNA. The level of CKB enzyme activity in C6 whole cell lysates was among the highest of the glial cell lines which we measured. All creatine kinase enzyme activity present in C6 was found in the dimeric CKB isoform (BB), which is characteristic of CKB expression in the brain. A 2.9 kb gene fragment containing the basal CKB promoter and far-upstream 5' sequences was cloned upstream of the chloramphenicol acetyltransferase (CAT) gene and transfected into C6 cells. CAT activity was readily detectable in C6 and mapping of the 5' end of the CAT mRNA showed that transcription was directed from the correct initiation site. Since we found C6 cells were difficult to transfect, conditions were established which both maximized transfection efficiency and maintained normal C6 cell morphology. These results should permit the future identification of the nuclear trans-acting factors and the cognate cis-acting regulatory elements responsible for high CKB mRNA expression in brain glial cells.
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PMID:Expression of the rat brain creatine kinase gene in C6 glioma cells. 851 Jan 86

Vascular endothelial growth factor (VEGF)/vascular permeability factor (VPF), exists as multiple forms due to alternative splicing of mRNA. VEGF165/164 (human/rodent homologue) is often assumed to be the predominant form, although truly quantitative assessments are lacking. We have used the RNase protection assay to directly quantitate the relative abundance of VEGF mRNA forms in five rat tissues (brain, kidney, lung, spleen, and heart) and two rat glioma cell lines (C6 and 9L). The three major forms, which code for proteins of 188, 164, and 120 amino acids, were observed in all of the tissues and cells examined. However, the relative abundance differed among the samples. VEGF188 was the predominant form (> 50% of total VEGF mRNA) in heart and lung, but was the least abundant form (6-15%) in all other samples. VEGF164 was lower (approximately 25%) in heart and lung, but was predominant (> 50%) in brain and kidney. VEGF164 and VEGF120 were present in equimolar amounts (each form approximately 46% of total) in the spleen, C6, and 9L. VEGF120 was also present in kidney (38%) and lung (27%) and was least abundant (approximately 15%) in brain and heart. A rat homologue of VEGF206 was not observed. VEGF mRNA splicing occurs in a tissue-specific manner. The assumption that the predominant physiologic form of VEGF is a VEGF165/164 homodimer should be viewed with caution.
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PMID:Differential expression of vascular endothelial growth factor (vascular permeability factor) forms in rat tissues. 852 59

Using a rat S100A1 cDNA probe, S100A1 expression has been documented in rat C6 glioma cells, a cell line previously thought to express only the S100B protein. To identify the molecular mechanisms which target S100A1 gene expression to specific cell types, the rat S100A1 gene was cloned, and functional analysis of the 5' flanking region of the gene was performed. The rat S100A1 gene was located in an 8.5 kb BamHI genomic fragment which contained 3 exons plus 1.6 kb of 5'-upstream and 0.37 kb of 3'-downstream flanking sequence. A single transcription initiation start site and a single polyadenylation signal were identified in this gene. A number of potential regulatory consensus sequences were identified in the rat S100A1 gene including general transcription factor binding sequences (TATA box, GC box and CCAAT box), cAMP regulated sequences (CRE), skeletal muscle specific sequences (E-box and M-CAT), an S100 protein element, and a (GCT) trinucleotide repeat. Analysis of an S100A1 promoter-CAT construct by ribonuclease protection assay demonstrated that this gene is functional in three S100A1 expressing cell lines, C6 cells, PC12 cells and L6 cells. CAT constructs containing progressive deletions of the S100A1 promoter region revealed a positive regulatory element in skeletal muscle (L6) cells between -1600/-1081. The fact that these same sequences were negative in glial (C6) cells and neutral in neuronal (PC12) cells suggests that this region plays a major role in targeting S100A1 expression to specific cell types. The -1081/+10 region contained both positive and negative elements, some of which were cell-type specific. Thus, S100A1 expression is under complex transcriptional control which involves positive and negative elements as well as cell type specific elements.
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PMID:Expression of the rat S100A1 gene in neurons, glia, and skeletal muscle. 879 2

As an initial approach to define the regulatory elements and transcriptional factors that account for cell-restricted expression of the alpha2c-adrenergic receptor (AR) gene, we isolated and characterized the receptor gene and identified regions of the gene conferring cell-specific expression. A 4300-nucleotide (nt) fragment of the 5'-flanking region of the rat alpha2c-AR gene was isolated from a genomic library. The genomic sequence contained the uninterrupted sequence of the 5'-untranslated region of a previously isolated alpha2c-AR cDNA clone indicating the lack of introns in the 5' gene segment. RNase protection assays and/or RNA blot analysis indicated the expression of alpha2c-AR mRNA in rat brain but not in kidney or liver, which is consistent with the major expression of this gene in neuronal tissue. The 5' gene segment was used to identify sites of transcriptional initiation and promoter activity by RNase protection assays and transient transfection of reporter gene constructs. With the use of RNA probes progressively upstream of the translational start site, RNase protection assays with rat brain total RNA indicated multiple sites of transcriptional initiation within a approximately 70-nt span (-660 to -730 nt 5' to the translational start codon). The zone of transcriptional initiation was part of a larger GC-rich area of the 5' gene segment that is a characteristic of genes initiating transcripts at multiple sites. The promoter activity of this zone of transcriptional initiation and the influence of gene segments 5' to this area were addressed using chloramphenicol acetyl transferase reporter gene constructs. Transient transfection of reporter gene constructs indicated that a 96-nt gene fragment (-699/-603 relative to the translational start codon) was sufficient to direct transcription in the neuroblastoma X glioma hybrid cell line NG108-15, a cell line expressing the endogenous alpha2c-AR. Promoter activity was not observed in constructs lacking the zone of transcriptional initiation. The promoter segment was inactive when introduced into the rat glioma cell line C6B4, the rat submandibular cell line RSMT-A5, and the rat pancreatic beta cell line RIN-5AH, all of which do not express the endogenous alpha2c-AR gene. Upon incubation with nuclear extracts, a 129-nt fragment encompassing the promoter exhibited a gel mobility shift pattern that was specific for cells expressing the receptor protein and involved a nuclear protein that recognized a Sp1 oligonucleotide. These data indicate that a 96-nt gene promoter segment of the alpha2c-AR gene functions in a cell-type-specific manner.
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PMID:Analysis of the alpha2C-adrenergic receptor gene promoter and its cell-type-specific activity. 896 63

Plectin is a widely expressed protein that is very large in size and that has all the attributes of a multifunctional crosslinking and organizing element of the cytoskeleton. It displays a multidomain structure, versatile binding activities, and subcellular localizations that enable it to strengthen cells against mechanical stress forces. Moreover, hereditary gene defects in plectin cause epidermolysis bullosa simplex (EBS)-MD, a severe skin blistering disease with muscular dystrophy. Here we report the analysis of the exonintron organization of the rat plectin gene and the identification of several different isoforms on the transcriptional level. We show that of 35 coding exons identified, 4 serve as alternative first exons splicing into the same successive exon 2, which is the first of 7 exons encoding a highly conserved actin-binding domain. RNase protection mapping of transcripts containing 3 of the identified 4 alternate first exons revealed their coexpression in rat glioma C6 cells and in a series of different rat tissues that we examined. Significant variations in expression levels of first exons indicated the possibility of tissue-specific promoter usage. In addition, plectin splice variants lacking exon 31 (> 3 kb), which encodes the entire rod domain of the molecule, were identified in a variety of rat tissues. This study provides first insights into a complex plectin gene regulatory machinery with similarities to that of dystrophin.
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PMID:Plectin transcript diversity: identification and tissue distribution of variants with distinct first coding exons and rodless isoforms. 917 81

Double-stranded RNA adenosine deaminase (DsRAD), which converts adenosine in duplex RNA to inosine, has been implicated in editing of cellular mRNA and hypermutation of viral RNA in the central nervous system (CNS). We used subcellular fractionation to show that DsRAD in bovine brain tissues is associated with high-molecular-weight ribonucleoprotein (RNP) complexes in the nuclei. DsRAD-associated RNP complexes have apparent molecular mass of up to 500 kDa and buoyant density of 1.35 to 1.42 g cc-1 in CsCl solution. In human glioma cells, DsRAD is also found exclusively in intranuclear RNP complexes that co-sediment with the largest RNA species. These DsRAD-associated RNP complexes are dissociated by RNase A or high salt. The RNA component is not essential for DsRAD activity, and the protein component can be separated by dsRNA-affinity column, gel filtration column, and glycerol gradient into enzymatically active protein species with apparent molecular mass ranging from 120 kDa to 70 kDa in polyacrylamide gel. The bovine brain DsRAD has no apparent requirement for low-molecular-weight cofactors or metal ions. These results provide insight into the native state of DsRAD in brain cells and have interesting implications for its putative roles in RNA-editing and hypermutation of viral RNA in the CNS.
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PMID:Isolation and characterization of intranuclear ribonucleoprotein complexes associated with double-stranded RNA adenosine deaminase from brain cells: implications for RNA-editing and hypermutation of viral RNA in the CNS. 922 68

To identify antigenic differences between gliomas and normal brain, we have immunohistochemically studied the expression of lymphocyte adhesion molecules (ICAM-1, ICAM-2, ICAM-3, VCAM-1, E-selectin and CD58), epidermal growth factor receptor (EGFR) and extracellular matrix proteins (collagen IV, fibronectin, laminin, merosin, tenascin and vitronectin) in these tissues. Gliomas expressed high levels of ICAM-1, CD58 (LFA-3), EGFR, tenascin and vitronectin, whereas only very low levels were detected in normal brain. VCAM-1 expression was detected in 15 out of 25 gliomas but not in normal brain. The presence of VCAM-1 in gliomas was verified by immunoblotting and RNase protection assay, and in glioma cell lines by Northern blotting. Expression of VCAM-1 in gliomas may partially explain lymphocytic infiltration, and anti-VCAM-1 antibodies may be of potential in antibody mixtures for targeted therapy of gliomas.
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PMID:Lymphocyte adhesion molecule ligands and extracellular matrix proteins in gliomas and normal brain: expression of VCAM-1 in gliomas. 929 90

To understand how neurons control the expression of the AMPA receptor subunit GluR2, we cloned the 5' proximal region of the rat gene and investigated GluR2 promoter activity by transient transfection. RNase protection and primer extension of rat brain mRNA revealed multiple transcription initiation sites from -340 to -481 bases upstream of the GluR2 AUG codon. The relative use of 5' start sites was different in cortex and cerebellum, indicating complexity of GluR2 transcript expression among different sets of neurons. When GluR2 promoter activity was investigated by plasmid transfection into cultured cortical neurons, cortical glia, and C6 glioma cells, the promoter construct with the strongest activity, per transfected cell, was 29.4-fold (+/- 3.7) more active in neurons than in non-neural cells. Immunostaining of cortical cultures showed that >97% of the luciferase-positive cells also expressed the neuronal marker MAP-2. Evaluation of internal deletion and substitution mutations identified a functional repressor element I RE1-like silencer and functional Sp1 and nuclear respiratory factor-1 (NRF-1) elements within a GC-rich proximal GluR2 promoter region. The GluR2 silencer reduced promoter activity in glia and non-neuronal cell lines by two- to threefold, was without effect in cortical neurons, and could bind the RE1-silencing transcription factor (REST) because cotransfection of REST into neurons reduced GluR2 promoter activity in a silencer-dependent manner. Substitution of the GluR2 silencer by the homologous NaII RE1 silencer further reduced GluR2 promoter activity in non-neuronal cells by 30-47%. Maximal positive GluR2 promoter activity required both Sp1 and NRF-1 cis elements and an interelement nucleotide bridge sequence. These results indicate that GluR2 transcription initiates from multiple sites, is highly neuronal selective, and is regulated by three regulatory elements in the 5' proximal promoter region.
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PMID:Transcriptional regulation of the GluR2 gene: neural-specific expression, multiple promoters, and regulatory elements. 971 44

Cytokines have roles in tumor biology and induce neurological manifestations. Cytokines produced in response to a brain tumor may generate neurological manifestations via paracrine action. We investigated cytokine modulation in an in vivo brain tumor model with behavioral, morphological, and molecular approaches. Rat C6 glioma cells were implanted into the third cerebral ventricle of Wistar rats, their behavior was monitored, and the development of an intracranial tumor of astrocytic origin was confirmed by histology and positive immunostaining for vimentin, S-100 protein, and glial fibrillary acidic protein. Sensitive and specific RNase protection assays were used to analyze cytokine messenger RNA (mRNA) in brain regions from anorexic brain tumor-bearing animals. Brain tumor formation was associated with significant increased levels of interleukin (IL)-1beta, IL-1 receptor antagonist, IL-1 receptor type I, tumor necrosis factor (TNF)-alpha, and transforming growth factor (TGF)-beta1 mRNAs in the cerebellum, hippocampus, and hypothalamus. IL-1 receptor accessory proteins I and II mRNAs were increased in the cerebellum and hypothalamus. We also examined hypothalamic feeding-associated components: neuropeptide Y and proopiomelanocortin mRNAs were down-regulated, glycoprotein 130 mRNA levels were up-regulated, and leptin receptor (OB-R) mRNA levels were unchanged. These dissimilar profiles of mRNA expression suggest specificity of brain tumor-induced transcriptional changes. The data implicate cytokines as important factors in brain tumor-host interactions in vivo. The data also show that the C6 cell-induced glioma can be used as a behavioral-molecular model to study cytokine and neuropeptide modulation and action during the host biochemical and physiological responses to brain tumor development. Paracrine interactions seem pivotal because cytokine modulation was observed in various brain regions. These results also suggest that cytokine and neuropeptide changes during brain tumor progression are involved in brain tumor-associated neurological and neuropsychiatrical manifestations.
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PMID:Brain tumor development in rats is associated with changes in central nervous system cytokine and neuropeptide systems. 1035 67


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