Transcriptomic, Proteomic, and Functional Long-Term Characterization of Multicellular Three-Dimensional Human Liver Microtissues.

Q2 Health Professions
Simon Messner, Lisa Fredriksson, Volker M Lauschke, Katrin Roessger, Claudia Escher, Magdalena Bober, Jens M Kelm, Magnus Ingelman-Sundberg, Wolfgang Moritz
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Abstract

Three-Dimensional (3D) liver microtissues, specifically prepared from primary human hepatocytes (PHH) in coculture with nonparenchymal cells (NPCs), have been shown to be a valuable tool for in vitro toxicology. However, a lack of thorough characterization on a functional, transcriptomic, and proteomic level of such models during long-term cultivation is evident. By integrating multiple omics technologies, we provide in this study an in-depth long-term characterization of 3D microtissues composed of PHH from three different donors cocultured with primary NPCs. The 3D human liver microtissues (hLiMTs) exhibited stable adenosine triphosphate (ATP) content and albumin secretion over 5 weeks. Histological analysis indicated a healthy liver tissue with polarized expression of bile salt export pump (BSEP) and multidrug resistance protein 2 (MRP2) in a structure reminiscent of bile canaliculi. The 3D microtissues exhibited stable basal and inducible cytochrome P450 activities up to 5 weeks in culture. Analysis of 40,716 transcripts using RNA arrays revealed distinct similarities to native human liver gene expression. Long-term culture showed a stable phenotype up to 5 weeks, with differences in liver gene expression primarily attributed to individual donors. Proteomic profiling of 2200 unique proteins by label-free LC-MS/MS revealed a relatively stable protein expression where only 7.3% were up- or downregulated more than twofold from day 7 to 35 in culture. Taken together, these results suggest that hLiMTs represent a responsive and physiologically relevant in vitro liver model that maintains stable function over 5 weeks and is therefore well suited for repeated-dose toxicity testing.

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多细胞三维人类肝脏微组织的转录组学、蛋白质组学和功能长期表征。
三维(3D)肝脏微组织是由原代人类肝细胞(PHH)与非肾小球细胞(NPC)共培养制备而成的,已被证明是体外毒理学的重要工具。然而,此类模型在长期培养过程中的功能、转录组和蛋白质组水平显然缺乏全面的表征。通过整合多种全息技术,我们在本研究中提供了由来自三个不同供体的 PHH 与原代 NPCs 共同培养的三维微组织的长期深入表征。三维人体肝脏微组织(hLiMTs)在5周内表现出稳定的三磷酸腺苷(ATP)含量和白蛋白分泌。组织学分析表明,健康的肝脏组织具有胆盐输出泵(BSEP)和多药耐药蛋白2(MRP2)的极化表达,其结构与胆管相似。三维微组织在长达 5 周的培养过程中表现出稳定的基础和诱导细胞色素 P450 活性。利用 RNA 阵列对 40,716 个转录本进行的分析表明,它们与原生人类肝脏基因表达有明显的相似性。长期培养显示了长达 5 周的稳定表型,肝脏基因表达的差异主要归因于个体供体。通过无标记 LC-MS/MS 对 2200 种独特蛋白质进行的蛋白质组分析表明,蛋白质表达相对稳定,从培养第 7 天到第 35 天,只有 7.3% 的蛋白质上调或下调超过 2 倍。总之,这些结果表明,hLiMTs 是一种反应灵敏、与生理相关的体外肝脏模型,可在 5 周内保持稳定的功能,因此非常适合重复剂量毒性测试。
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来源期刊
Applied In Vitro Toxicology
Applied In Vitro Toxicology Health Professions-Medical Laboratory Technology
CiteScore
2.70
自引率
0.00%
发文量
13
期刊介绍: Applied In Vitro Toxicology is a peer-reviewed journal providing the latest research on the application of alternative in vitro testing methods for predicting adverse effects in the pharmaceutical, chemical, and personal care industries. This Journal aims to address important issues facing the various chemical industries, including regulatory requirements; the reduction, refinement, and replacement of animal testing; new screening methods; evaluation of new cell and tissue models; and the most appropriate methods for assessing safety and satisfying regulatory demands. The Journal also delivers the latest views and opinions of developers of new models, end users of the models, academic laboratories that are inventing new tools, and regulatory agencies in the United States, Europe, Latin America, Australia and Asia. Applied In Vitro Toxicology is the journal that scientists involved with hazard identification and risk assessment will read to understand how new and existing in vitro methods are applied, and the questions for which these models provide answers. Applied In Vitro Toxicology coverage includes: -Applied in vitro toxicology industry standards -New technologies developed for applied in vitro toxicology -Data acquisition, cleaning, distribution, and best practices -Data protection, privacy, and policy -Business interests from research to product -The changing role of in vitro toxicology -Visualization and design principles of applied in vitro toxicology infrastructures -Physical interfaces and robotics -Opportunities around applied in vitro toxicology
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