库普弗细胞在对乙酰氨基酚诱导的急性肝损伤中的变化及功能研究OA
Dynamic changes and functional roles of Kupffer cells in acetaminophen-induced acute liver injury
目的 解析对乙酰氨基酚(APAP)诱导急性药物性肝损伤过程中库普弗细胞(KC)的时空动态特征及其与肝细胞区域性再生的调控规律.方法 构建Clec4f-iCre&Rosa26-tdTomato谱系示踪小鼠模型,腹腔注射APAP(400 mg/kg)建立急性肝损伤模型,分别于给药后第0、1、2、3、7天采集肝组织和血液样本.通过组织病理学(HE染色、TUNEL凋亡检测)、血清生化分析(检测丙氨酸氨基转移酶和天冬氨酸氨基转移酶)及免疫荧光染色等技术,系统分析KC迁移规律、表型转换特征及其与肝细胞再生过程的时空关联.结果 APAP损伤后第1天(D1)中央静脉周围(PC)肝细胞出现大面积坏死与凋亡,且伴随KC数量下降由损伤区域周围向损伤中心迁移;D2开始修复,坏死面积逐渐减小;D3时以炎性细胞浸润为主,肝细胞增殖达到峰值(Ki67+细胞占比约22%,P<0.05).修复期单核细胞(CD11b⁺IBA-1-)向巨噬细胞分化,形成单核来源巨噬细胞(CD11b⁺IBA-1⁺),协同促进PC区细胞色素P4502E1(CYP2E1⁺)肝细胞再生.至D7肝小叶结构基本恢复,标志代谢分区功能重建完成.结论 KC通过时空动态迁移与单核细胞表型转换调控肝再生进程,提示巨噬细胞时空重编程在肝损伤修复中发挥核心作用.
Objective To elucidate the spatiotemporal dynamics of Kupffer cells(KCs)in acetaminophen(APAP)-induced acute drug-induced liver injury and their regulatory mechanisms governing regional hepatocyte regeneration.Methods A Clec4f-iCre&Rosa26-tdTomato lineage-tracing mouse model was established to specifically label KCs.Acute liver injury was induced via intraperitoneal injection of acetaminophen(APAP,400 mg/kg).Liver tissues and blood samples were collected at 0,1,2,3 and 7 days post-APAP administration.Histopathological examinations(H&E staining,TUNEL assay for apoptosis detection),serum biochemical analyses(ALT and AST),and immunofluo-rescence staining were employed to find out about the spatiotemporal migration patterns of KCs,their phenotypic transition,and spatiotemporal correlations between KC dynamics and hepatocyte regeneration.Results On day 1(D1)post-APAP injury,extensive hepatocyte necrosis and apoptosis were observed in the pericentral(PC)zone,accompanied by a reduction in KCs count and their migration from the periphery toward the necrotic core.From D2 onward,repair started,with the necrotic area progressively decreasing.By D3,inflammatory cell infiltration was pronounced in the PC zone,concurrent with a peak in hepatocyte proliferation(Ki67⁺cells:approximately 22%,P<0.05).During repair,monocytes(CD11b⁺IBA-1⁻)differentiated into monocyte-derived macrophages(CD11b⁺IBA-1⁺),which synergistically promoted the regeneration of cytochrome P4502E1(CYP2E1⁺)hepatocytes in the pericentral zone.By D7,the hepatic lobular architecture was largely restored,indicating the completion of reconstruction of metabolic zonation.Conclusion KCs can regulate hepatocyte regeneration through spatiotemporal dynamics and phenotypic transitions of monocyte-derived macrophages.These findings underscore the pivotal role of macrophage spatiotemporal reprogramming in liver injury repair and may provide data for developing macrophage-targeted therapeutic interventions in hepatic injury.
张祥颂;王璇;曹延楠;王韫芳;闫军
青海大学研究生院,西宁 810016||清华大学北京清华长庚医院肝胆胰中心,北京 102218清华大学北京清华长庚医院肝胆胰中心,北京 102218清华大学北京清华长庚医院肝胆胰中心,北京 102218||吉林大学第一医院普外科中心肝胆胰外科,长春 130031清华大学北京清华长庚医院肝胆胰中心,北京 102218青海大学研究生院,西宁 810016||清华大学北京清华长庚医院肝胆胰中心,北京 102218
医药卫生
药物性肝损伤库普弗细胞代谢分区肝再生对乙酰氨基酚
drug-induced liver injuryKupffer cellsmetabolic zonationhepatic regenerationacetaminophen
《军事医学》 2026 (1)
17-23,7
清华大学精准医学战略项目(2022ZLA006)
评论