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题目:: Transcription profiling of rats after treatment with tienilic acid
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状态:: 发布时间June 16, 2008 , 更新时间 May 2, 2014 , 提交时间 June 22, 2007,
物种:: Rattus norvegicus
摘要:: Tienilic acid (TA) was withdrawn from the US market due to numerous cases of liver necrosis. Two major hypotheses currently used to understand the mechanisms of idiosyncratic reactions such as TA-induced hepatotoxicity are the hapten and danger hypotheses. Both human cytochrome (CYP) P450 2C9 and the rat ortholog CYP 2C11 metabolize TA, and it was reported that a reactive metabolite of TA binds almost exclusively to these enzymes, thus acting as a mechanism-based inhibitor. TA-induced liver toxicity is associated with antibodies against CYP 2C9, thus TA appears to act as a hapten. However, if the binding were limited to CYP 2C, it is unlikely that this would lead to significant cell stress. Thus, if TA does not cause cell stress it would suggest that a drug does not have to generate a “danger signal” in order to cause an idiosyncratic drug reaction and acting as a hapten is sufficient. In order to test whether TA can cause cell stress, male Sprague Dawley rats were orally dosed with TA, and hepatic gene expression was profiled at 6 and 24 h after drug administration. Results showed that TA induced robust changes in genes involved in oxidative stress (e.g. aldo-keto reductase, glutathione-S-transferase, thioredoxin reductase, epoxide hydrolase), inflammation and cytotoxicity (e.g. IL-1b, interferon regulatory factor 1, macrophage stimulating protein 1, caspase-12), as well as those promoting liver regeneration (e.g. p27Kip1, DUSP6, serine dehydratase, spectrin bII, inhibin bA). These data support the hypothesis that danger signals in the form of cell-stress proteins and the generation of oxidative stress may be involved in initiating the immune response observed in TA-induced toxicity. Other recent data also indicate that the reactive metabolite of TA binds to other proteins in addition to CYP 2C Experiment Overall Design: Rats were orally dosed with TA or control sodium bicarbonate. Eight animals were divided into two groups: Group 1 consisted of two animals that received a single dose of TA, and the two control animals received only sodium bicarbonate. Group 1 was sacrificed 6 h after drug/vehicle administration. Group 2 also comprised of two animals, and they were given two doses of TA (given at t=0 and t=16 h) and sacrificed at 24 h. Control rats in group 2 received two oral doses of sodium bicarbonate. For microarray analysis, six Affymetrix chips were used: Group 1 samples (3 chips) was comprised of pooled RNA from control rats C1 and C2, and an individual chip for each treated animal T1 and T2; Group 2 (3 chips) pooled RNA from control rats C3 and C4, and an individual chip for each treated animal T3 and T4.
实验种类:: transcription profiling by array
样本量:: 6
实验设计:
: 无设计数据
数据号:: E-GEOD-8252, GSE8252
数据状态:: 无法自动分析，您可以尝试手动分析数据。

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