Project description:We screen for vascular off-target effects at therapeutic concentrations of celecoxib and rofecoxib using genomic approaches in a mouse model of vascular inflammatory responses. We assess whether therapeutic concentrations of celecoxib and rofecoxib might elicit distinct genomic effects in vivo in mice by comprehensive and unbiased analysis of the whole transcriptome sequencing. Drug specific differences in their expression profiles would be indicative of off-target effects.
Project description:The aim of this data set is to measure the effect of rofecoxib and celecoxib on the transcription profile in an in vitro inflammation model. Transcription profiling was carried out using Affymetrix HG U-133A v2 microarrays. Human aortic smooth muscle cells (3F1243) were pre-treated with rofecoxib (500 nM) or celecoxib (500 nM) for two hours and subsequently exposed to IL-1beta (10 ng/ml). Transcription profiling was carried out at several time points of IL-1beta exposure: Four samples at -2 hours. Four samples each of control, celecoxib, and rofecoxib at each time point 0hr, 2hr, 8hr and 24hr. 52 samples in total.
Project description:The aim of this data set is to measure the effect of rofecoxib and celecoxib on the transcription profile in an in vitro inflammation model. Transcription profiling was carried out using Affymetrix HG U-133A v2 microarrays.
Project description:Biopsies and surgical specimens were obtained from breast tumours treated and non-treated with celecoxib 400mg twice daily for 2 weeks
Project description:Gene expression analysis of celecoxib-treated rat cardiomyocytes vs non-treated rat cardiomyocytes. Goal of study is to identify changes on genes expression induced by celecoxib. The data analysis focused on genes that might be related to cardiotoxicity; genes expression ion channels and pathways.
Project description:Gene expression analysis of celecoxib-treated rat cardiomyocytes vs non-treated rat cardiomyocytes. Goal of study is to identify changes on genes expression induced by celecoxib. The data analysis focused on genes that might be related to cardiotoxicity; genes expression ion channels and pathways. two control samples vs 6 celecoxib-treated samples. Variables of treatment included two time points (6h or 24h) and three reference concentrations (1, 1/5 and 1/25). Each group had 3 replicates.
Project description:Microarray analysis is a useful methodology to identify target genes modulated by anticancer drugs. Here, celecoxib effect on gene expression profiles was evaluated in the modified resistant hepatocyte model. Animals subjected to carcinogenic treatment were fed with diet containing 1500 ppm of celecoxib. Two schemes of celecoxib administration were designed. In the progression protocol, celecoxib was administrated between days 18 and 25 post-cancer initiation, a total of 8 celecoxib treatment days, when well established preneoplastic lesions starts to appear. In the initiation protocol, celecoxib was administrated from one week before until 25 days after of cancer initiation, a total of 32 celecoxib treatment days. A rat group was subjected only to the carcinogenic treatment as cancer positive control. Gene expression profiles of all groups were compared to a negative untreated control. The evaluation of gene expression profiles permitted us to identify new target genes that are modulated by celecoxib treatment. A possible mechanism of celecoxib chemoprevention of hepatocarcinogenesis is proposed. 9 weeks old Sprague Dawley rats, 4 rats per group, were subjected to Semple-Roberts' modified hepatocarcinogenesis protocol and sacrificed 25 days post-initiation. In celecoxib-treated groups, celecoxib was administrated mixed in diet at 1500 ppm. Negative and positive cancer progression controls were included to compare gene expression profiles. Microarray analysis was performed on liver samples, one replicate per rat, using dye swap.
