Bio-Mechanism Inhibitory Prediction of β-Sitosterol from Kemangi ( L.) as an Inhibitor of MurA Enzyme of Oral Bacteria: In vitro and in silico Study.

Background: Dental caries is a widespread disease that causes dental tissue destruction and leads to local and general complications. Gram-positive bacteria including , , and take part in dental caries formation. Gram-positive bacteria have cell walls that consistof a thick layer of peptidoglycan which maintains the strength and rigidity of the bacteria, as well as bacteria guard from internal osmotic pressure. The biosynthesis of peptidoglycan involves many enzymes, including the Mur family, penicillin binding protein (PBP), and sortases.

Purpose: This research has the intention to screen and examine the antibacterial compound of edible plant Kemangi ( L.) in terms of how it fights against some oral pathogenic bacteria of ATCC 29212, ATCC 25175, and ATCC 10566.

Materials And Methods: The L. was macerated by several organic solvents to obtain the extracts, before then being purified using several combinations of chromatography methods and the compound was discovered via spectroscopic methods. For the assay against bacteria, the extracts and compounds were tested using agar well diffusion and microdilution assay.

Results: The isolated compound was identified as β-sitosterol. The compound activity against bacteria was evaluated by in vitro assay against ATCC 10566 and ATCC 29212 with the MIC and MBC value of 25,000 and 50,000 ppm, respectively. The compound was also tested by in silico study using the molecular docking method. The molecular interaction between β-sitosterol and the protein target showed a lower binding affinity value than the native ligand and other positive controls for each protein. Based on the amino acid residue bound to the ligands, β-sitosterol on MurA and SrtA is not competitive to the positive control, showing potential as a natural antibacterial agent. Meanwhile, on the MurB and PBP, β-sitosterol and positive control do compete with each other.

Conclusion: The compound, isolated from L. leaf, was determined as β-sitosterol, which has the molecular formula CHO. The antibacterial activity of β-sitosterol by in vitro assay showed weak antibacterial activity, yet exhibited the potential to inhibit the biosynthesis of peptidoglycan and prevent bacteria cell wall formation by inhibiting MurA and SrtA activity via docking simulation.