Synergistic interactions between artocarpin-rich extract, lawsone methyl ether and ampicillin on anti-MRSA and their antibiofilm formation

Abstract

Abstract Artocarpin-rich extract (ARE) was prepared using a green technology and standardized to contain 49·6% w/w artocarpin, while lawsone methyl ether was prepared using a green semi-synthesis. ARE, LME and ampicillin exhibited weak anti-MRSA activity with the MICs of 31·2–62·5 µg/ml. Based on the checkerboard assay, the synergistic interaction between ARE (0·03 µg/ml) and LME (0·49 µg/ml) against four MRSA isolates were observed with the fractional inhibitory concentration index (FICI) value of 0·008, while those of ARE (1·95–7·81 µg/ml) and ampicillin (0·49 µg/ml) as well as LME (0·49–1·95 µg/ml) and ampicillin (0·49 µg/ml) were 0·016–0·257. The time kill confirmed the synergistic interactions against MRSA with different degrees. The combination of ARE and LME as well as its combinations with ampicillin altered the membrane permeability of MRSA, which led to release of the intracellular materials. In addition, each compound inhibited the biofilm formation of standard MRSA (DMST 20654) and the clinical isolate (MRSA 1096). These findings suggested that cocktails containing ARE and LME might be used to overcome problems associated with MRSA. Additionally, the results implied that combination of either ARE or LME with available conventional antibiotic agents might be effective in countering these perilous pathogens.