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Single-cell transcriptome analysis uncovers underlying mechanisms of acute liver injury induced by tripterygium glycosides tablet in mice

Qiuyan Guo, Jiangpeng Wu, Qixin Wang, Yuwen Huang, Lin Chen, Jie Gong, Maobo Du, Guangqing Cheng, Tianming Lu, Minghong Zhao, Yuan Zhao, Chong Qiu, Fei Xia, Junzhe Zhang, Jiayun Chen, Feng Qiu, Jigang Wang

2023Journal of Pharmaceutical Analysis12 citationsDOIOpen Access PDF

Abstract

Hook. F. has been effectively used in the treatment of rheumatoid arthritis, nephrotic syndrome, leprosy, Behcet's syndrome, leprosy reaction and autoimmune hepatitis. However, due to its narrow and limited treatment window, TGT-induced organ toxicity (among which liver injury accounts for about 40% of clinical reports) has gained increasing attention. The present study aimed to clarify the cellular and molecular events underlying TGT-induced acute liver injury using single-cell RNA sequencing (scRNA-seq) technology. The TGT-induced acute liver injury mouse model was constructed through short-term TGT exposure and further verified by hematoxylin-eosin staining and liver function-related serum indicators, including alanine aminotransferase, aspartate aminotransferase, alkaline phosphatase and total bilirubin. Using the mouse model, we identified 15 specific subtypes of cells in the liver tissue, including endothelial cells, hepatocytes, cholangiocytes, and hepatic stellate cells. Further analysis indicated that TGT caused a significant inflammatory response in liver endothelial cells at different spatial locations; led to marked inflammatory response, apoptosis and fatty acid metabolism dysfunction in hepatocytes; activated hepatic stellate cells; brought about the activation, inflammation, and phagocytosis of liver capsular macrophages cells; resulted in immune dysfunction of liver lymphocytes; disturbed the intercellular crosstalk in liver microenvironment by regulating various signaling pathways. Thus, these findings elaborate the mechanism underlying TGT-induced acute liver injury, provide new insights into the safe and rational applications in the clinic, and complement the identification of new biomarkers and therapeutic targets for liver protection.

Topics & Concepts

Hepatic stellate cellLiver injuryChemistryTripterygium wilfordiiTripterygiumInflammationAlanine transaminaseImmunologyPharmacologyMedicinePathologyInternal medicineGlycosideAlternative medicineOrganic chemistryNatural Compounds in Disease TreatmentLiver physiology and pathologyPhagocytosis and Immune Regulation
Single-cell transcriptome analysis uncovers underlying mechanisms of acute liver injury induced by tripterygium glycosides tablet in mice | Litcius