Background:The emerging incidence of pathogenic liver conditions is turning into a major concern for global health.Induction of pyroptosis in hepatocytes instigates cel-lular disintegration,which in turn liberates sub...Background:The emerging incidence of pathogenic liver conditions is turning into a major concern for global health.Induction of pyroptosis in hepatocytes instigates cel-lular disintegration,which in turn liberates substantial quantities of pro-inflammatory intracellular substances,thereby accelerating the advancement of liver fibrosis.Consequently,directing therapeutic efforts towards inhibiting pyroptosis could po-tentially serve as an innovative approach in managing inflammation related chronic hepatic disorders.Methods:GSDMD-NT^(ki/wt)mice and Alb-cre^(ki/wt)mice were generated using CRISPR/Cas9 technology.After crossing the two strains together,we induced conditional cell death by doxycycline to construct a mouse model of liver fibrosis.We analyzed differ-entially expressed genes by RNA sequencing and explored their biological functions.The efficacy of obeticholic acid(OCA)in the treatment of liver fibrosis was assessed.Results:Doxycycline-treated GSDMD-NT^(ki/wt)×Alb-cre^(ki/wt)mice showed severe liver damage,vacuolation of hepatocytes,increased collagen fibers,and accumulation of lipid droplets.The expression of liver fibrosis related genes was greatly increased in the doxycycline-treated mouse liver compared with untreated mouse liver.RNA-sequencing showed that upregulated differentially expressed genes were involved in inflammatory responses,cell activation,and metabolic processes.Treatment with OCA alleviated the liver fibrosis,with reduced ALT and AST levels seen in the GSDMD-NT^(ki/wt)×Alb-cre^(ki/wt)mice.Conclusions:We successfully constructed a novel mouse model for liver fibrosis.This GSDMD-NT-induced fibrosis may be mediated by abnormal lipid metabolism.Our re-sults demonstrated that we successfully constructed a mouse model of liver fibrosis,and GSDMD-NT induced fibrosis by mediating lipid metabolism.展开更多
基金National Natural Science Foundation of China,Grant/Award Number:82174292Key Project of Jiangsu Provincial Administration of Traditional Chinese Medicine,Grant/Award Number:ZD202312+2 种基金Natural Science Foundation of Laboratory Medicine School in Chengdu Medical College,Grant/Award Number:JYZK202203Sichuan Province Science and Technology Program,Grant/Award Number:2024NSFSC0577 and 2021YFG0316Technology innovation group project of Foshan 2019,Grant/Award Number:FS0AA-KJ919-4402-0027。
文摘Background:The emerging incidence of pathogenic liver conditions is turning into a major concern for global health.Induction of pyroptosis in hepatocytes instigates cel-lular disintegration,which in turn liberates substantial quantities of pro-inflammatory intracellular substances,thereby accelerating the advancement of liver fibrosis.Consequently,directing therapeutic efforts towards inhibiting pyroptosis could po-tentially serve as an innovative approach in managing inflammation related chronic hepatic disorders.Methods:GSDMD-NT^(ki/wt)mice and Alb-cre^(ki/wt)mice were generated using CRISPR/Cas9 technology.After crossing the two strains together,we induced conditional cell death by doxycycline to construct a mouse model of liver fibrosis.We analyzed differ-entially expressed genes by RNA sequencing and explored their biological functions.The efficacy of obeticholic acid(OCA)in the treatment of liver fibrosis was assessed.Results:Doxycycline-treated GSDMD-NT^(ki/wt)×Alb-cre^(ki/wt)mice showed severe liver damage,vacuolation of hepatocytes,increased collagen fibers,and accumulation of lipid droplets.The expression of liver fibrosis related genes was greatly increased in the doxycycline-treated mouse liver compared with untreated mouse liver.RNA-sequencing showed that upregulated differentially expressed genes were involved in inflammatory responses,cell activation,and metabolic processes.Treatment with OCA alleviated the liver fibrosis,with reduced ALT and AST levels seen in the GSDMD-NT^(ki/wt)×Alb-cre^(ki/wt)mice.Conclusions:We successfully constructed a novel mouse model for liver fibrosis.This GSDMD-NT-induced fibrosis may be mediated by abnormal lipid metabolism.Our re-sults demonstrated that we successfully constructed a mouse model of liver fibrosis,and GSDMD-NT induced fibrosis by mediating lipid metabolism.
