Nutrients, Vol. 17, Pages 3849: A Multi-Omics Study Reveals the Active Components and Therapeutic Mechanism of Erhuang Quzhi Formula for Non-Alcoholic Fatty Liver Disease
Nutrients doi: 10.3390/nu17243849
Authors:
Teng Ma
Mingzhu Li
Yuan Liu
Yu Chen
Zipeng Guan
Tonghua Liu
Dongmei Qin
Jia Xu
Objectives: Erhuang Quzhi Formula (EQF) has been used for the treatment of non-alcoholic fatty liver disease (NAFLD). However, its active components and mechanistic basis remain unclear. This study aims to systematically identify the therapeutic material basis of EQF and to elucidate its potential mechanisms of action against NAFLD through an integrated multi-omics strategy. Methods: An integrated strategy combining UPLC-Q-TOF-MS and network pharmacology was applied to characterize serum components of EQF and construct a compound–target network. Core targets were screened and validated by molecular docking. A NAFLD model was established in C57BL/6 mice through high-fat diet feeding. To evaluate the therapeutic effects, mice were treated with EQF and assessed by measurements of serum biochemical parameters, liver histopathology, and glucose tolerance. UPLC-Q-TOF-based lipidomic and metabolomic analyses of liver tissue were conducted to clarify EQF’s regulatory effects on global lipid profiles and endogenous metabolites. Key genes and proteins involved in relevant signaling pathways were verified by RT-qPCR and Western blot. Results: A total of thirty-one prototype compounds were identified in the EQF-containing serum. Network pharmacology analysis predicted that EQF may alleviate NAFLD by acting on core targets such as TNF, JUN, and STAT3. In vivo experiments demonstrated that EQF administration significantly improved liver function, attenuated dyslipidemia, and reduced inflammation in model mice. Furthermore, metabolomic and lipidomic analyses indicated that EQF effectively reversed abnormal glycerophospholipid and sphingolipid levels and restored their metabolic homeostasis. Conclusions: EQF exerts therapeutic effects in a NAFLD mouse model through multi-component, multi-target, and multi-pathway mechanisms, primarily associated with the regulation of lipid metabolism, improvement of liver function, and suppression of inflammatory responses. This study provides mechanistic insights and a pharmacodynamic basis for the future clinical investigation of EQF.
Objectives: Erhuang Quzhi Formula (EQF) has been used for the treatment of non-alcoholic fatty liver disease (NAFLD). However, its active components and mechanistic basis remain unclear. This study aims to systematically identify the therapeutic material basis of EQF and to elucidate its potential mechanisms of action against NAFLD through an integrated multi-omics strategy. Methods: An integrated strategy combining UPLC-Q-TOF-MS and network pharmacology was applied to characterize serum components of EQF and construct a compound–target network. Core targets were screened and validated by molecular docking. A NAFLD model was established in C57BL/6 mice through high-fat diet feeding. To evaluate the therapeutic effects, mice were treated with EQF and assessed by measurements of serum biochemical parameters, liver histopathology, and glucose tolerance. UPLC-Q-TOF-based lipidomic and metabolomic analyses of liver tissue were conducted to clarify EQF’s regulatory effects on global lipid profiles and endogenous metabolites. Key genes and proteins involved in relevant signaling pathways were verified by RT-qPCR and Western blot. Results: A total of thirty-one prototype compounds were identified in the EQF-containing serum. Network pharmacology analysis predicted that EQF may alleviate NAFLD by acting on core targets such as TNF, JUN, and STAT3. In vivo experiments demonstrated that EQF administration significantly improved liver function, attenuated dyslipidemia, and reduced inflammation in model mice. Furthermore, metabolomic and lipidomic analyses indicated that EQF effectively reversed abnormal glycerophospholipid and sphingolipid levels and restored their metabolic homeostasis. Conclusions: EQF exerts therapeutic effects in a NAFLD mouse model through multi-component, multi-target, and multi-pathway mechanisms, primarily associated with the regulation of lipid metabolism, improvement of liver function, and suppression of inflammatory responses. This study provides mechanistic insights and a pharmacodynamic basis for the future clinical investigation of EQF. Read More