[Virtual screening and antiepileptic activity evaluation of COX-2 inhibitory components in Trachelospermi Caulisetfolium].

This study investigated the potential active components against cyclooxygenase-2(COX-2) from Trachelospermi Caulisetfolium and explored the pharmacodynamic material basis.A pharmacophore-based virtual screening method was adopted to establish a COX-2 ligands-based HipHop pharmacophore model on the basis of the information on compounds with COX-2 inhibitory activity reported in published research articles.The reported components in Trachelospermi Caulisetfolium were collected to establish the compound library and matched with the pharmacophores.Subsequently, the matched small molecule compounds underwent molecular docking with COX-2 targets(PDB ID: 3 LN1), and the interaction of potential active monomers and COX-2 was further explored by molecular dynamics.The antiepileptic effect of active monomer arctigenin(15) was determined based on the pentylenetetrazole(PTZ)-induced seizure model, and its modulatory effect on the COX-2 level was evaluated.A compound library containing 118 chemical constituents in Trachelospermi Caulisetfolium was established by literature retrieval.The preferred pharmacophore 04 was selected through test set verification for virtual screening of the compound library of Trachelospermi Caulisetfolium.After matching, six potential constituents with COX-2 inhibitory activity were obtained.The interaction of five compounds with COX-2 and COX-1 was analyzed by molecular docking, and 10 ns molecular dynamics was performed on two compounds.Compound 15 could prolong the latent time of PTZ-induced seizures at medium and high doses, improve the anxiety-and depression-like behaviors induced by PTZ, reduce the expression level of COX-2, and decrease the number of COX-2 immuno-posi-tive cells in the hippocampal CA1 region.The results showed that it was reasonable to investigate the components in Trachelospermi Caulisetfolium with COX-2 inhibitory activity based on virtual screening and activity evaluation.