Paper
In Silico Exploration of the Molecular Mechanism of Cassane Diterpenoids on Anti-inflammatory and Immunomodulatory Activity
Published Feb 25, 2019 · DOI · Ying Wang, Baichun Hu, Yusheng Peng
Journal of chemical information and modeling
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Abstract
Cassane diterpenoids (CAs), recognized as main constituents of many medical plants of the genus Caesalpinia, exhibit diverse bioactivities, including anti-inflammatory and immunomodulatory activity, and also showed a therapeutic effect on rheumatoid arthritis (RA) according to previous work, including ours. In this study, 102 CA compounds were selected to explore the possible molecular mechanism of this class of natural products on anti-inflammatory and immunomodulatory activity using RA as a disease model through a series of in silico methods: chemical-similarity-based target prediction, molecular docking, and molecular dynamics (MD) simulation. As a consequence, four signaling pathways (TCR signaling pathway, TLR signaling pathway, VEGF signaling pathway, and osteoclast differentiation pathway) by which CAs exert their effect on inflammation and immunomodulation were identified. Furthermore, the binding modes of CAs complexing with several crucial targets, which were picked out by credible docking results and took part in these signaling pathways, were explored by MD simulations. This is the first time that the molecular mechanism of the anti-RA activity of natural CAs has been investigated with in silico methods, and these findings might explain the activity of CAs on anti-inflammation and immunomodulation, which could supply a valuable reference for drug design research on CAs.
Cassane diterpenoids show anti-inflammatory and immunomodulatory activity in rheumatoid arthritis by targeting four signaling pathways, providing valuable insights for drug design research.
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