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Gene Expression Profiling of Doxifluridine Treated Liver, Small and Large Intestine in Cynomolgus (Macaca fascicularis) Monkeys  

Jeong, Sun-Young (Toxicogenomics Team, Korea Institute of Toxicology)
Park, Han-Jin (Toxicogenomics Team, Korea Institute of Toxicology)
Oh, Jung-Hwa (Toxicogenomics Team, Korea Institute of Toxicology)
Kim, Choong-Yong (Non-human Primate Research Team, Korea Institute of Toxicology)
Yoon, Seok-Joo (Toxicogenomics Team, Korea Institute of Toxicology)
Publication Information
Molecular & Cellular Toxicology / v.3, no.2, 2007 , pp. 137-144 More about this Journal
Abstract
The mechanism of cytotoxicity of doxifluridine, a prodrug fluorouracil (5-FU), has been ascribed to the misincorporation of fluoropyrimidine into RNA and DNA and to the inhibition of the nucleotide synthetic enzyme thymidylate synthase. Increased understanding of the mechanism of 5-FU has led to the development of strategies that increases its anticancer activity or predicts its sensitivity to patients. Using GeneChip?? Rhesus Macaque Genome arrays, we analyzed gene expression profiles of doxifluridine after two weeks repeated administration in cynomolgus monkey. Kegg pathway analysis suggested that cytoskeletal rearrangement and cell adhesion remodeling were commonly occurred in colon, jejunum, and liver. However, expression of genes encoding extracellular matrix was distinguished colon from others. In colon, COL6A2, COL18A1, ELN, and LAMA5 were over-expressed. In contrast, genes included in same category were down-regulated in jejunum and liver. Interestingly, MMP7 and TIMP1, the key enzymes responsible for ECM regulation, were overexpressed in colon. Several studies were reported that both gene reduced cell sensitivity to chemotherapy-induced apoptosis. Therefore, we suggest they have potential as target for modulation of 5-FU action. In addition, the expression of genes which have been previously known to involve in 5-FU pathway, were examined in three organs. Particularly, there were more remarkable changes in colon than in others. In colon, ECGF1, DYPD, TYMS, DHFR, FPGS, DUT, BCL2, BAX, and BAK1 except CAD were expressed in the direction that was good response to doxifluridine. These results may provide that colon is a prominent target of doxifluridine and transcriptional profiling is useful to find new targets affecting the response to the drug.
Keywords
Doxifluridine; Gene expression; Liver; Intestine; 5-FU;
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