The application of engineered liver tissues for novel drug discovery

药物发现 诱导多能干细胞 计算生物学 生物信息学 肝细胞 药物开发 肝细胞 生物 人肝 体内 药品 生物信息学 计算机科学 胚胎干细胞 医学 药理学 体外 生物技术 生物化学 基因 内科学
作者
Christine M. Lin,Kimberly R. Ballinger,Salman R. Khetani
出处
期刊:Expert Opinion on Drug Discovery [Taylor & Francis]
卷期号:10 (5): 519-540 被引量:42
标识
DOI:10.1517/17460441.2015.1032241
摘要

Drug-induced liver injury remains a major cause of drug attrition. Furthermore, novel drugs are being developed for treating liver diseases. However, differences between animals and humans in liver pathways necessitate the use of human-relevant liver models to complement live animal testing during preclinical drug development. Microfabrication tools and synthetic biomaterials now allow for the creation of tissue subunits that display more physiologically relevant and long-term liver functions than possible with declining monolayers.The authors discuss acellular enzyme platforms, two-dimensional micropatterned co-cultures, three-dimensional spheroidal cultures, microfluidic perfusion, liver slices and humanized rodent models. They also present the use of cell lines, primary liver cells and induced pluripotent stem cell-derived human hepatocyte-like cells in the creation of cell-based models and discuss in silico approaches that allow integration and modeling of the datasets from these models. Finally, the authors describe the application of liver models for the discovery of novel therapeutics for liver diseases.Engineered liver models with varying levels of in vivo-like complexities provide investigators with the opportunity to develop assays with sufficient complexity and required throughput. Control over cell-cell interactions and co-culture with stromal cells in both two dimension and three dimension are critical for enabling stable liver models. The validation of liver models with diverse sets of compounds for different applications, coupled with an analysis of cost:benefit ratio, is important for model adoption for routine screening. Ultimately, engineered liver models could significantly reduce drug development costs and enable the development of more efficacious and safer therapeutics for liver diseases.

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