Ma Yue, He Runbang, Deng Bo, Luo Miaomiao, Zhang Wenjie, Mao Lina, Hu Wenxiang, Mao Yilei, Yang Huayu, Huang Pengyu
Engineering Research Center of Pulmonary and Critical Care Medicine Technology and Device (Ministry of Education), Tianjin Institutes of Health Science, Institute of Biomedical Engineering, Chinese Academy of Medical Sciences & Peking Union Medical College, Tianjin, China.
Department of Basic Research, Guangzhou National Laboratory, Guangdong, China.
J Tissue Eng. 2025 Jan 17;16:20417314241313341. doi: 10.1177/20417314241313341. eCollection 2025 Jan-Dec.
The development of advanced models for assessing liver toxicity and drug responses is crucial for personalized medicine and preclinical drug development. 3D bioprinting technology provides opportunities to create human liver models that are suitable for conducting high-throughput screening for liver toxicity. In this study, we fabricated a humanized liver model using human-induced hepatocytes (hiHeps) derived from human fibroblasts via a rapid and efficient reprogramming process. These hiHeps were then employed in 3D bioprinted liver models with bioink materials that closely mimic the natural extracellular matrix. The constructed humanized 3D bioprinted livers (h3DPLs) exhibited mature hepatocyte functions, including albumin expression, glycogen storage, and uptake/release of indocyanine green and acetylated low-density lipoprotein. Notably, h3DPLs demonstrated increased sensitivity to hepatotoxic agents such as acetaminophen (APAP), making them a promising platform for studying drug-induced liver injury. Furthermore, our model accurately reflected the impact of rifampin, a cytochrome P450 inducer, on CYP2E1 levels and APAP hepatotoxicity. These results highlight the potential of hiHep-based h3DPLs as a cost-effective and high-performance alternative for personalized liver toxicity screening and preclinical drug testing, paving the way for improved drug development strategies and personalized therapeutic interventions.
开发用于评估肝毒性和药物反应的先进模型对于个性化医疗和临床前药物开发至关重要。3D生物打印技术为创建适合进行肝毒性高通量筛选的人肝模型提供了机会。在本研究中,我们通过快速高效的重编程过程,使用源自人成纤维细胞的人诱导肝细胞(hiHeps)构建了一种人源化肝模型。然后将这些hiHeps用于具有紧密模拟天然细胞外基质的生物墨水材料的3D生物打印肝模型中。构建的人源化3D生物打印肝脏(h3DPLs)表现出成熟的肝细胞功能,包括白蛋白表达、糖原储存以及吲哚菁绿和乙酰化低密度脂蛋白的摄取/释放。值得注意的是,h3DPLs对乙酰氨基酚(APAP)等肝毒性药物表现出更高的敏感性,使其成为研究药物性肝损伤的有前景的平台。此外,我们的模型准确反映了细胞色素P450诱导剂利福平对CYP2E1水平和APAP肝毒性的影响。这些结果突出了基于hiHep的h3DPLs作为个性化肝毒性筛选和临床前药物测试的经济高效且高性能替代方案的潜力,为改进药物开发策略和个性化治疗干预铺平了道路。
