Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:6.3.5.5 (CPS)
 1,262 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

To better understand the signaling pathways which lead to DNA synthesis in mammalian cells, we have studied the transcriptional activation of genes needed during the S phase of the cell cycle. Transcription of the gene encoding a pyrimidine biosynthetic enzyme, carbamoyl-phosphate synthase (glutamine-hydrolyzing)/aspartate carbamoyltransferase/dihydroorotase (cad), increases at the G1/S-phase boundary. We have mapped the growth-dependent response element in the hamster cad gene to the extended palindromic E-box sequence, CCACGTGG, which is centered at +65 in the 5' untranslated sequence. Mutation of the E box abolished growth-dependent transcription, and an oligonucleotide corresponding to the cad sequence at +55 to +75 (+55/+75) restored growth-dependent regulation to nonresponsive cad promoter mutants when placed down-stream of the transcription start site. The same oligonucleotide conferred less G1/S-phase induction when placed upstream of basal promoter elements. An analogous oligonucleotide containing the mutant E box had no effect in either location. Nuclear proteins bound the cad +55/+75 element in a cell cycle-dependent manner in electromobility shift assays; antibodies specific to USF and Max blocked the DNA-binding activity of different growth-regulated protein-DNA complexes. Expression of c-Myc mutants which have been shown to dominantly interfere with the function of c-Myc and Max significantly inhibited cad transcription during S phase but had no effect on transcription from another G1/S-phase-activated promoter, dhfr. These data support a model whereby E-box-binding proteins activate serum-induced transcription from the cad promoter at the G1/S-phase boundary and suggest that a Max-associated protein complex contributes to the serum response.
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PMID:An E-box-mediated increase in cad transcription at the G1/S-phase boundary is suppressed by inhibitory c-Myc mutants. 773 36

The loss of p53 tumor suppressor functions results in genetic instability, characteristically associated with changes in chromosome ploidy and gene amplification. In vivo, we find that cells from various organs of 4 to 6-week old p53-nullizygous (p53-/-) mice display aneuploidy and frequent gene amplification as well as evidence for apoptosis. Regardless of tissue types, many p53-/- cells contain multiple centrosomes and abnormally formed mitotic spindles. Thus, chromosome instability in vivo may be associated with abnormal centrosome amplification. Moreover, we observed a significant increase in the number of cells overexpressing c-Myc in p53-/- mice. Consistent with previous studies showing that c-Myc overexpression is associated with gene amplification in vitro, many of the p53-/- cells exhibited, in the same cell, c-Myc overexpression and amplified c-myc, dihydrofolate reductase (DHFR), and carbamoyl-phosphate synthetase-aspartate transcarbamoyl-dihydroorotase (CAD) genes. Furthermore, apoptosis was frequently observed in cells isolated from p53-/- mice. The apoptotic cells contained abnormally amplified centrosomes, displayed aneuploidy, high levels of c-Myc expression, as well as gene amplification. These results indicate that a high number of aberrant cells is eliminated by p53-independent pathways in vivo.
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PMID:Genomic instability and apoptosis are frequent in p53 deficient young mice. 931 97

The role of hSWI/SNF complexes in transcriptional activation is well characterized; however, little is known about their function in transcriptional repression. We have previously shown that subunits of the mSin3A/histone deacetylase 2 (HDAC2) corepressor complex copurify with hSWI/SNF complexes. Here we show that the type II arginine-specific methyltransferase PRMT5, which is involved in cyclin E repression, can be found in association with Brg1 and hBrm-based hSWI/SNF complexes. We also show that hSWI/SNF-associated PRMT5 can methylate hypoacetylated histones H3 and H4 more efficiently than hyperacetylated histones H3 and H4. Protein-protein interaction studies indicate that PRMT5 and mSin3A interact with the same hSWI/SNF subunits as those targeted by c-Myc. These observations prompted us to examine the expression profile of the c-Myc target genes, carbamoyl-phosphate synthase-aspartate carbamoyltransferase-dihydroorotase (cad) and nucleolin (nuc). We found that cad repression is altered in cells that express inactive Brg1 and in cells treated with the HDAC inhibitor depsipeptide. Using chromatin immunoprecipitation assays, we found that Brg1, mSin3A, HDAC2, and PRMT5 are directly recruited to the cad promoter. These results suggest that hSWI/SNF complexes, through their ability to interact with activator and repressor proteins, control expression of genes involved in cell growth and proliferation.
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PMID:mSin3A/histone deacetylase 2- and PRMT5-containing Brg1 complex is involved in transcriptional repression of the Myc target gene cad. 1455 96

In this study we selected three breast cancer cell lines (SKBR3, SUM149 and SUM190) with different oncogene expression levels involved in ERBB2 and EGFR signaling pathways as a model system for the evaluation of selective integration of subsets of transcriptomic and proteomic data. We assessed the oncogene status with reads per kilobase per million mapped reads (RPKM) values for ERBB2 (14.4, 400, and 300 for SUM149, SUM190, and SKBR3, respectively) and for EGFR (60.1, not detected, and 1.4 for the same 3 cell lines). We then used RNA-Seq data to identify those oncogenes with significant transcript levels in these cell lines (total 31) and interrogated the corresponding proteomics data sets for proteins with significant interaction values with these oncogenes. The number of observed interactors for each oncogene showed a significant range, e.g., 4.2% (JAK1) to 27.3% (MYC). The percentage is measured as a fraction of the total protein interactions in a given data set vs total interactors for that oncogene in STRING (Search Tool for the Retrieval of Interacting Genes/Proteins, version 9.0) and I2D (Interologous Interaction Database, version 1.95). This approach allowed us to focus on 4 main oncogenes, ERBB2, EGFR, MYC, and GRB2, for pathway analysis. We used bioinformatics sites GeneGo, PathwayCommons and NCI receptor signaling networks to identify pathways that contained the four main oncogenes and had good coverage in the transcriptomic and proteomic data sets as well as a significant number of oncogene interactors. The four pathways identified were ERBB signaling, EGFR1 signaling, integrin outside-in signaling, and validated targets of C-MYC transcriptional activation. The greater dynamic range of the RNA-Seq values allowed the use of transcript ratios to correlate observed protein values with the relative levels of the ERBB2 and EGFR transcripts in each of the four pathways. This provided us with potential proteomic signatures for the SUM149 and 190 cell lines, growth factor receptor-bound protein 7 (GRB7), Crk-like protein (CRKL) and Catenin delta-1 (CTNND1) for ERBB signaling; caveolin 1 (CAV1), plectin (PLEC) for EGFR signaling; filamin A (FLNA) and actinin alpha1 (ACTN1) (associated with high levels of EGFR transcript) for integrin signalings; branched chain amino-acid transaminase 1 (BCAT1), carbamoyl-phosphate synthetase (CAD), nucleolin (NCL) (high levels of EGFR transcript); transferrin receptor (TFRC), metadherin (MTDH) (high levels of ERBB2 transcript) for MYC signaling; S100-A2 protein (S100A2), caveolin 1 (CAV1), Serpin B5 (SERPINB5), stratifin (SFN), PYD and CARD domain containing (PYCARD), and EPH receptor A2 (EPHA2) for PI3K signaling, p53 subpathway. Future studies of inflammatory breast cancer (IBC), from which the cell lines were derived, will be used to explore the significance of these observations.
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PMID:Genome wide proteomics of ERBB2 and EGFR and other oncogenic pathways in inflammatory breast cancer. 2364 60