Bu Heng-Fu, Subramanian Saravanan, Chou Pauline M, Liu Fangyi, Sun Leyu, Geng Hua, Wang Xiao, Liao Jie, Du Chao, Hu Joyce, Tan Stephanie C, Nathan Nirmal, Yang Guang-Yu, Tan Xiao-Di
Department of Pediatrics, Pediatric Mucosal Inflammation and Regeneration Research Program, Center for Pediatric Translational Research and Education, College of Medicine, University of Illinois at Chicago, Chicago, Illinois, United States.
Department of Research and Development, Jesse Brown Veterans Affairs Medical Center, Chicago, Illinois, United States.
Am J Physiol Gastrointest Liver Physiol. 2024 Oct 1;327(4):G499-G512. doi: 10.1152/ajpgi.00005.2024. Epub 2024 Aug 6.
Apoptosis, inflammation, and wound healing are critical pathophysiological events associated with various liver diseases. Currently, there is a lack of in vivo approaches to study hepatocyte apoptosis-induced liver injury and repair. To address this critical knowledge gap, we developed a unique genetically modified mouse model, namely, 3-Transgene (Tg) with inducible Hepatocyte-Specific Apoptosis Phenotype (3xTg-iHAP) in this study. The 3xTg-iHAP mice possess three transgenes including , Rosa26-, and on a B6 background. These mice are phenotypically normal, viable, and fertile. After subcutaneous administration of a single dose of doxycycline (5 mg/kg, Dox) to 3xTg-iHAP mice, we observed a complete histological spectrum of sterile liver wound-healing responses: asymptomatic hepatocyte apoptosis at 8 h, necrotic liver injury and sterile inflammation at 48 h, followed by hepatocyte mitosis and regeneration within 7 days. During the injury phase, the mice exhibited an increase in the biomarkers of alanine aminotransferase (ALT), chemokine (C-X-C motif) ligand 1 (CXCL1), and IL-6 in peripheral blood, as well as α-smooth muscle actin (α-SMA) protein in liver tissues. Conversely, the mice displayed a decrease in these markers in the recovery phase. Remarkably, this model shows that the sterile liver injury following elevated hepatocyte apoptosis is associated with an increase in myeloid cells in the liver. Within 7 days post-Dox administration, the liver of Dox-treated 3xTg-iHAP mice displays a normal histological structure, indicating the completion of wound healing. Together, we established a novel mouse model of injury and regeneration induced by hepatocyte apoptosis. This tool provides a robust in vivo platform for studying the pathophysiology of sterile liver inflammation, regeneration, and new therapeutic interventions for liver diseases. Bu et al. present a triple-transgenic mouse model, namely, 3xTg-iHAP mice that are engineered to explore hepatocyte apoptosis-triggered sterile liver injury and regeneration. This model demonstrates a full spectrum of liver wound-healing responses from asymptomatic apoptosis to injury, myeloid cell-dominant sterile inflammation, and repair after induction of hepatocyte-specific apoptosis. The robust nature of this model makes it an invaluable in vivo tool for studying sterile liver inflammation, regeneration, and new therapeutic strategies.
细胞凋亡、炎症和伤口愈合是与各种肝脏疾病相关的关键病理生理事件。目前,缺乏在体内研究肝细胞凋亡诱导的肝损伤和修复的方法。为了填补这一关键的知识空白,我们在本研究中开发了一种独特的基因改造小鼠模型,即具有诱导型肝细胞特异性凋亡表型的三转基因(3-Tg)小鼠(3xTg-iHAP)。3xTg-iHAP小鼠在B6背景上拥有三个转基因,包括Rosa26-和。这些小鼠在表型上正常、可存活且可育。对3xTg-iHAP小鼠皮下注射单剂量强力霉素(5 mg/kg,Dox)后,我们观察到了无菌性肝伤口愈合反应的完整组织学谱:8小时时无症状肝细胞凋亡,48小时时坏死性肝损伤和无菌性炎症,随后在7天内肝细胞有丝分裂和再生。在损伤阶段,小鼠外周血中丙氨酸氨基转移酶(ALT)、趋化因子(C-X-C基序)配体1(CXCL1)和白细胞介素-6的生物标志物以及肝组织中α平滑肌肌动蛋白(α-SMA)蛋白增加。相反,小鼠在恢复阶段这些标志物减少。值得注意的是,该模型表明肝细胞凋亡增加后的无菌性肝损伤与肝脏中髓样细胞增加有关。在给予Dox后7天内,接受Dox治疗的3xTg-iHAP小鼠的肝脏显示出正常的组织结构,表明伤口愈合完成。总之,我们建立了一种由肝细胞凋亡诱导的损伤和再生的新型小鼠模型。该工具为研究无菌性肝炎症、再生以及肝脏疾病的新治疗干预提供了一个强大的体内平台。Bu等人提出了一种三转基因小鼠模型,即3xTg-iHAP小鼠,该模型经过工程改造以探索肝细胞凋亡引发的无菌性肝损伤和再生。该模型展示了从无症状凋亡到损伤、髓样细胞主导的无菌性炎症以及肝细胞特异性凋亡诱导后的修复的全谱肝伤口愈合反应。该模型的强大特性使其成为研究无菌性肝炎症、再生和新治疗策略的宝贵体内工具。
