Integrating In Vitro and In Silico Approaches to Assess Monotheca buxifolia Plant Extract against Rhipicephalus (Boophilus) microplus and Sarcoptes scabiei

Molecules. 2023 Oct 4;28(19):6930. doi: 10.3390/molecules28196930.

Abstract

Tick and mite infestations pose significant challenges to animal health, agriculture, and public health worldwide. The search for effective and environmentally friendly acaricidal agents has led researchers to explore natural alternatives. In this study, we investigated the acaricidal potential of the Monotheca buxifolia plant extract against Rhipicephalus microplus ticks and Sarcoptes scabiei mites. Additionally, we employed a computational approach to identify phytochemicals from the extract that could serve as drug candidates against these ectoparasites. The contact bioassay results demonstrated that the M. buxifolia plant extract exhibited significant efficacy against R. microplus and S. scabiei, with higher concentrations outperforming the positive control acaricide permethrin in terms of mite mortality. Time exposure to the extract also showed a positive correlation with better lethal concentration (LC50 and LC90) values. Similarly, the adult immersion test revealed a notable inhibition of tick oviposition via the plant extract, especially at higher concentrations. The two-protein primary structure, secondary structure and stability were predicted using the Expasy's ProtParam server, SOPMA and SUSUI server, respectively. Using Homology modeling, the 3D structure of the protein was obtained and validated through the ERRAT server, and active sites were determined through the CASTp server. The docking analysis revealed that Alpha-Amyrenyl acetate and alpha-Tocopherol exhibited the highest docking scores for S. scabiei and R. microplus aspartic protease proteins, respectively. These phytochemicals demonstrated strong binding interactions, suggesting their potential as acaricidal drug candidates. In conclusion, the M. buxifolia plant extract displayed significant acaricidal activity against R. microplus and S. scabiei. Moreover, the computational approach identified promising phytochemicals that could serve as potential drug candidates for controlling these ectoparasites.

Keywords: Monotheca buxifolia extract; Rhipicephalus microplus aspartic protease (RmAP); Sarcoptes scabiei aspartic protease (SsAP); acaricide resistance; docking; ectoparasites; molecular dynamics simulations.

MeSH terms

  • Acaricides* / chemistry
  • Acaricides* / pharmacology
  • Animals
  • Female
  • Larva
  • Phytochemicals / pharmacology
  • Plant Extracts / chemistry
  • Plant Extracts / pharmacology
  • Plants
  • Rhipicephalus*
  • Sarcoptes scabiei

Substances

  • Plant Extracts
  • Phytochemicals
  • Acaricides

Grants and funding

This research was funded by King Saud University, Riyadh, Saudi Arabia grant number [RSPD2023R971] and the APC was funded by Wen-Feng Wu.