Investigation on the function tropism of Tiaoqin and Kuqin (different specification of Scutellaria baicalensis) by comparing their curative effect on different febrile disease model.

ETHNOPHARMACOLOGICAL RELEVANCE: Scutellaria baicalensis (S. baicalensis) is the root of S. baicalensis Georgi. In traditional Chinese medicine it is divided into Tiaoqin (TQ, 1-3 years old) and Kuqin (KQ, more than 3 years old). However, the differences in TQ and KQ efficacy and their exact mechanisms are still unclear. AIM OF THE STUDY: This study aimed to clarify the difference in the efficacy of TQ and KQ in relation to different fever types (damp heat and hyperpyrexia) by using rat models, as well as to determine the primary molecular mechanism. MATERIALS AND METHODS: This study compared the compositional content of TQ and KQ by UPLC-MS/MS. Then, rat models of hyperpyrexia (HP, LPS) and damp heat (DH, high-fat and high-sugar diet feeding + fumigation in artificial climate chamber + E. coli injection) were established and their clinical symptoms, blood biochemistry, histopathological sections, cell cytokines and protein expression were compared following treatment with TQ or KQ. Finally, the mechanisms underpinning the differences observed for TQ and KQ were determined by measuring the components of these treatments in different target organs. RESULTS: This study identified 31 compounds in the water extracts of both TQ and KQ, which differed significantly in their relative content. TQ and KQ showed different functional tropism in HP and DH model rats. Baicalin, wogonoside, oroxin A, baicalein, wogonin and oroxylin A appeared to be the basic functional components responsible for the functional tropism hypothesis, while the remaining compounds appeared to be the efficacy-oriented components. In addition, the difference in pharmacodynamics between TQ and KQ may be related to their absorption in vivo, which was consistent with the hypothesis of functional tropism proposed in this work. CONCLUSION: In this study we adopted TQ and KQ-different specifications of Scutellaria baicalensis with similar chemical components-as a case study to systematically reveal the functional tropism of Chinese herbal medicine (CHM). The results showed that TQ and KQ contain the basic functional components to enable the basic function of 'clearing heat', while the variation in compositional content may result in their different therapeutic effects. A greater understanding and utilisation of the functional tropism of CHM would enormously improve the accuracy and scientific basis for the application of CHM medication, as well as in promoting the multi-function mechanism of CHM and guiding new drug development of CHM.

Veratrilla baillonii Franch Could Alleviate Lipid Accumulation in LO2 Cells by Regulating Oxidative, Inflammatory, and Lipid Metabolic Signaling Pathways.

Based on the pathological theory of lipid metabolism and using network pharmacology, this study was designed to investigate the protective effect of water extract of Veratrilla baillonii (WVBF) on non-alcoholic fatty liver disease (NAFLD) model using LO2 cells and to identify the potential mechanism underlying the effect. The components of V. baillonii were identified from the public database of traditional Chinese medicine systems pharmacology database (TCMSP). Cytoscape software was used to construct the related composite target network. Then, Gene Ontology (GO) and Kyoto Encyclopedia of Genes and Genomes (KEGG) analysis were carried out for critical nodes. The BioGPS database was used to determine the distribution of the target in tissues and organs. Moreover, the inhibitory effect of V. baillonii was further investigated using an in vitro hepatocyte NAFLD model. Fourteen active components were then selected from the 27 known compounds of V. baillonii. The targets of gene enrichment analysis were mainly distributed in the lipid catabolism-related signaling pathway. Network analysis revealed that five target genes of TNF, MAPK8, mTOR, NF-ĸB, and SREBP-1c were key nodes and played important roles in this process. Organ localization analysis indicated that one of the core target site of V. baillonii was liver tissue. The results of the in vitro study revealed that WVBF can alleviate the inflammatory response and lipid accumulation in LO2 hepatocytes by inhibiting oxidative stress and the adipocytokine signaling pathway. Genes and proteins related to the lipid synthesis, such as SREBP-1C, acetyl-CoA carboxylase (ACC), and fatty acid synthase (FASN), were significantly decreased, and PPARα expression is significantly increased with WVBF administration. In conclusion, V. baillonii may regulate local lipid metabolism and attenuate oxidative stress and inflammatory factors through the PPARα/SREBP-1c signaling pathway. The present study also indicates that multiple components of V. baillonii regulate multiple targets and pathways in NAFLD. The findings highlight the potential of V. baillonii as a promising treatment strategy for nonalcoholic fatty liver injury.

[Study on hepatoprotective mechanisms of Veratrilla baillonii based on network pharmacology].

The purpose of this study was to predict the active components, targets and signaling pathways of Veratrilla baillonii for the prevention and treatment of non-alcoholic liver diseases, preliminarily verify the active components and related targets through cell experiments, and elucidate the mechanism of V. baillonii on liver protection. The candidate active components of V. baillonii were screened by searching Chinese medicine ingredients and Chinese medicine pharmacology database and analysis platform, combined with the pharmacokinetic parameters(oral availability and drug-like principle); the target of candidate active ingredients were predicted by protein database, and the target of disease related to non-alcoholic liver disease was predicted. Cytoscape software was used to construct the network of "active component-target-disease", and the protein interaction network was constructed through the STRING database to infer the core target. GO annotation analysis, KEGG pathway analysis and enrichment analysis were conducted through DAVID bioinformatics annotation database. Finally, the core target and pathway of V. baillonii were preliminarily verified by the experimental model of H_2O_2-induced liver cell damage intervened by V. baillonii water extract(WVBF). The cell viability was detected by MTT assay and real-time unlabeled assay, and the expression of related genes was analyzed by Real-time quantitative polymerase chain reaction(PCR). Firstly, 14 active components were obtained from V. baillonii through network pharmacology. There were 287 potential targets corresponding to the components, 587 targets related to non-alcoholic liver disease, and 13 core targets after the interaction between active ingredient targets and disease targets. Secondly, GO enrichment analysis showed that these genes mainly affected 26 biological processes such as nuclear receptor activity, transcription factor activity, steroid hormone receptor activity, ubi-quitin-like protein ligase binding, protein heterodimerization activity, and transcription cofactor binding. KEGG enrichment analysis showed that PI3 K-AKT signaling pathway, HIF-1 signaling pathway, MAPK signaling pathway, insulin signaling pathway, TNF signaling pathway and some cancer-related pathways were more enriched. Finally, TNF-α and MAPK8 were successfully verified as important targets by hepatocytes in vitro, which suggested that V. baillonii could significantly improve liver damage. TNF-α and MAPK8 were one of the targets. Based on the above results, we systematically predicted the material basis and biological mechanism of V. baillonii through multi-component, multi-target and multi-pathway regulation of nonalcoholic liver disease, and the core targets were successfully verified by cells, providing data basis and scientific basis for the in-depth development of V. baillonii.