Tissue-specific gene expression and regulation in liver and muscle following chronic corticosteroid administration.

Gene regulation and systems biology Pub Date : 2014-03-10 eCollection Date: 2014-01-01 DOI:10.4137/GRSB.S13134
Tung T Nguyen, Richard R Almon, Debra C Dubois, Siddharth Sukumaran, William J Jusko, Ioannis P Androulakis
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Abstract

Although corticosteroids (CSs) affect gene expression in multiple tissues, the array of genes that are regulated by these catabolic steroids is diverse, highly tissue specific, and depends on their functions in the tissue. Liver has many important functions in performing and regulating diverse metabolic processes. Muscle, in addition to its mechanical role, is critical in maintaining systemic energy homeostasis and accounts for about 80% of insulin-directed glucose disposal. Consequently, a better understanding of CS pharmacogenomic effects in these tissues would provide valuable information regarding the tissue-specificity of transcriptional dynamics, and would provide insights into the underlying molecular mechanisms of action for both beneficial and detrimental effects. We performed an integrated analysis of transcriptional data from liver and muscle in response to methylprednisolone (MPL) infusion, which included clustering and functional annotation of clustered gene groups, promoter extraction and putative transcription factor (TF) identification, and finally, regulatory closeness (RC) identification. This analysis allowed the identification of critical transcriptional responses and CS-responsive functions in liver and muscle during chronic MPL administration, the prediction of putative transcriptional regulators relevant to transcriptional responses of CS-affected genes which are also potential secondary bio-signals altering expression levels of target-genes, and the exploration of the tissue-specificity and biological significance of gene expression patterns, CS-responsive functions, and transcriptional regulation. The analysis provided an integrated description of the genomic and functional effects of chronic MPL infusion in liver and muscle.

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长期服用皮质类固醇后肝脏和肌肉中组织特异性基因的表达和调节。
尽管皮质类固醇(CSs)会影响多种组织中的基因表达,但受这些分解代谢类固醇调控的基因却多种多样,具有高度的组织特异性,并取决于它们在组织中的功能。肝脏在执行和调节各种代谢过程中具有许多重要功能。肌肉除了具有机械作用外,在维持全身能量平衡方面也至关重要,约占胰岛素引导的葡萄糖处置的 80%。因此,更好地了解 CS 药物基因组在这些组织中的作用将为转录动态的组织特异性提供有价值的信息,并有助于深入了解有益和有害作用的潜在分子机制。我们对输注甲基强的松龙(MPL)后肝脏和肌肉的转录数据进行了综合分析,其中包括聚类基因组的聚类和功能注释、启动子提取和推定转录因子(TF)鉴定,以及最后的调控亲和性(RC)鉴定。通过这项分析,确定了慢性 MPL 给药期间肝脏和肌肉中的关键转录反应和 CS 响应功能,预测了与受 CS 影响基因的转录反应相关的假定转录调节因子(它们也是改变靶基因表达水平的潜在次级生物信号),并探索了基因表达模式、CS 响应功能和转录调节的组织特异性和生物学意义。该分析综合描述了长期输注 MPL 对肝脏和肌肉基因组和功能的影响。
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