IL-6介导的ADME基因调控模型的建立Modelling IL-6 mediated ADME gene regulation |
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课程网址: | http://videolectures.net/mdo2014_keller_adme_genes/ |
主讲教师: | Roland Keller |
开课单位: | 图宾根大学 |
开课时间: | 2014-07-21 |
课程语种: | 英语 |
中文简介: | 问题 细胞因子,如IL-6,在炎症过程中产生并作用于肝细胞以启动急性期反应。这导致通过调节吸收、分布、代谢和排泄(ADME)基因表达对肝脏解毒能力产生广泛影响。已知有几种信号通路被IL-6激活,主要涉及MAPK、PI3K和JAK/STAT。先前的实验表明MAPK和PI3K在ADME基因表达调控中的作用大于JAK/STAT。本研究进一步研究了IL-6对ADME基因的调控。 方法 用IL-6和siRNAs联合处理来自几个肝脏供体的原代人肝细胞,敲除三个主要信号通路的关键激酶或这些激酶的化学抑制剂。采用反相阵列法和westernblot法检测关键信号蛋白的活性。使用Taqman®qPCR(fluidGM)平台分析基因表达数据。为了解释IL-6对ADME基因的调控作用,我们首先建立了一个基于文献信息的预知识模型(PKN)。这个模型包含几个与ADME基因表达相关的信号通路(PI3K/Akt、JAK/STAT和MAPK)。信号转导部分主要是对现有模型的改编(Ryll等人。,分子生物系统基因调控模块的信息来自其他几个来源。我们用软件CNORfuzzy(Morris等人,PLoS-Comp。Biol.,2011,7:3),从而建立了一个压缩的模糊逻辑模型。这个过程执行了100次,得到了一个“平均”模型。在这个模型中,转换的权重是优化模型中包含它的部分。我们改变了PKN模型中的一些转换,并在之后重复优化,以提高数据和模型预测之间的拟合度。 结果 数据显示不同捐赠者之间的差异很大。然而,在将CNORfuzzy方法应用于供体数据之后,优化和压缩的模型仍然包含所有供体的三条主要信号通路。对于几个ADME基因,我们的模型表明一个特定的信号通路(通常是JAK/STAT)具有显著的调控作用,而对于其他基因,调控似乎更为复杂,无法从数据中清楚阐明。 结论 我们的逻辑模型结合了来自文献和新数据集的知识。这使我们能够得出结论的重要性,具体影响ADME基因调控。一个发现是,该模型表明JAK/STAT通路的作用比先前假设的更为突出。 |
课程简介: | Questions Cytokines, such as IL-6, are produced during inflammation and act on hepatocytes to initiate the acute phase response. This results in broad influence on the detoxification capacity of the liver via modulation of absorption, distribution, metabolism and excretion (ADME) gene expression. Several signaling pathways are known to be activated by IL-6, predominantly involving MAPK, PI3K, and JAK/STAT. Previous experiments suggest a larger role of MAPK and PI3K for the regulation of ADME gene expression than of JAK/STAT. ADME gene regulation by IL-6 is investigated further in this work. Methods Primary human hepatocytes from several liver donors were treated with IL-6 in combination with siRNAs, knocking out key kinases of the three major signaling pathways or chemical inhibitors of these kinases. The activities of key signaling proteins were measured by reverse-phase array and Western Blot analysis. Gene expression data were analysed using the Taqman® qPCR (Fluidigm) platform. In order to explain the regulation of ADME genes by IL-6, we first created a pre-knowledge model (PKN) based on information from literature. This model contains several signaling pathways (PI3K/Akt, JAK/STAT, and MAPK) that are connected to ADME gene expression. The signal transduction part is mainly an adaptation of an existing model (Ryll et al., Mol.BioSyst., 2011, 7, 3253- 3270), whereas the information for the gene-regulatory module was taken from several other sources. We calibrated the PKN with adapted optimization and compression routines of the software CNORfuzzy (Morris et al., PLoS Comp. Biol., 2011,7:3) with respect to the data, thus creating a compressed fuzzy logic model. The procedure was executed 100 times, which yielded a "mean" model. The weight of a transition in this model is the portion of optimized models, in which it is contained. We changed several transitions in the PKN model and repeated the optimizations afterwards in order to improve the fit between data and model predictions. Results The data show large variations between the different donors. However, after applying the CNORfuzzy methods to the data of a donor, the optimized and compressed model still contained the three main signaling pathways for all donors. For several ADME genes our model suggests a prominent regulatory role of one specific signaling pathway (often JAK/STAT), whereas for other genes regulation seems to be more complicated and cannot be clearly elucidated from the data. Conclusions Our logical model combines knowledge from literature and new data sets. It enables us to draw conclusions about the importance of specific influences for ADME gene regulation. One finding is that the model suggests a more prominent role of the JAK/STAT pathway than previously assumed. |
关 键 词: | 炎症; 细胞因子; 基因 |
课程来源: | 视频讲座网 |
数据采集: | 2020-12-29:yxd |
最后编审: | 2020-12-29:yxd |
阅读次数: | 54 |