1. Heilaohuacid G, a new triterpenoid from Kadsura coccinea inhibits proliferation, induces apoptosis, and ameliorates inflammation in RA-FLS and RAW 264.7 cells via suppressing NF-휅B pathway.
- Author
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Yang, Yu‐pei, Jian, Yu‐qing, Liu, Yong‐bei, Xie, Qing‐ling, Yu, Huang‐he, Wang, Bin, Li, Bin, Peng, Cai‐yun, Wang, Wei, Yang, Yu-Pei, Jian, Yu-Qing, Liu, Yong-Bei, Xie, Qing-Ling, Yu, Huang-He, and Peng, Cai-Yun
- Subjects
BENZENE derivatives ,LIPOPOLYSACCHARIDES ,CYTOKINES ,RHEUMATIC fever ,CELL culture ,FIBROBLASTS ,SYNOVIAL membranes ,INFLAMMATION ,NF-kappa B ,APOPTOSIS ,CELL physiology ,PLANTS ,HYDROCARBONS ,RHEUMATOID arthritis ,OSTEOARTHRITIS ,RESEARCH funding ,PLANT extracts ,ETHANOL ,MICE ,ANIMALS - Abstract
Heilaohu, the roots of Kadsura coccinea, has been used in Tujia ethnomedicine to treat rheumatic arthritis (RA). Heilaohuacid G (1), a new 3,4-seco-lanostane type triterpenoid isolated from the ethanol extract of Heilaohu, whose structure was determined using HR-ESI-MS data, NMR spectroscopic analyses, and ECD calculations. In this study, our purpose is to elucidate the mechanisms of Heilaohuacid G in the treatment of RA by inhibited proliferation of rheumatoid arthritis-fibroblastoid synovial (RA-FLS) cells and inhibited the inflammatory reactions in LPS-induced RA-FLS and RAW 264.7 cell lines via inhibiting NF-κB pathway. The biological activity screening experiments indicated that Heilaohuacid G significantly inhibited proliferation of RA-FLS cells with IC50 value of 8.16 ± 0.47 μM. CCK-8 assay, ELISA, flow cytometry assay, and Western blot were used to measure the changes of cell viability, apoptosis, and the release of inflammatory cytokines. Heilaohuacid G was found not only induced RA-FLS cell apoptosis, but also inhibited the inflammatory reactions in LPS-induced RA-FLS and RAW 264.7 cell lines via inhibiting NF-κB pathway. Furthermore, Heilaohuacid G (p.o.) at doses of 3.0, 6.0, and 12.0 mg/kg and the ethanol extracts of Heilaohu (p.o.) at doses of 200, 400, and 800 mg/kg both were confirmed antiinflammatory effects on xylene-induced ear mice edema model. [ABSTRACT FROM AUTHOR]
- Published
- 2022
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