Efficacy of cyclic lipopeptides obtained from Bacillus subtilis to inhibit the growth of Microsporum canis isolated from cats

Abstract

Background and aim: Microsporum canis (M. canis) is a dermatophyte fungal pathogen that causes ringworms. Cats are considered to be a dominant reservoir host enabling M. canis transmission to humans. The concerns of dermatophyte resistance were raised among the usage of antifungal drugs to treat the ringworm. This study aimed to evaluate the fungal activity of cyclic lipopeptides (CLPs) obtained from Bacillus subtilis (B. subtilis) as an alternative method for the inhibition of M. canis growth. Materials and methods: The culture plate of M. canis from confirmed cats with ringworm infection was provided. The purification of CLP extract, fengycin, iturin A, and surfactin was carried out from B. subtilis by preparative thin-layer chromatography (PTLC) coupled with solid-phase extraction (SPE) methods. Half-maximal effective concentration (EC50) and agar well diffusion assays were performed to determine the efficacy of Bacillus CLP extract, fengycin, iturin A, and surfactin to inhibit the growth of M. canis isolated from cats. Results: All purified Bacillus substances displayed antifungal activity to control the growth of M. canis when compared with 80% ethanol (control). EC50 values for CLP extract, fengycin, iturin A, and surfactin were 0.23, 0.05, 0.17, and 0.08 mg/mL, respectively. In agar well diffusion assay, the ability of CLP extract, fengycin, iturin A, and surfactin on fungal inhibition had no statistically significant difference at 24 and 48 h after treatment (p < 0.05). However, CLP extract showed a statistically significant difference on M. canis inhibition at 62.21% followed by surfactin with 59.04% at 72 h after treatment. Conclusion: In vitro, Bacillus CLPs revealed an inhibitory effect on M. canis growth which is a zoonotic pathogen that causes ringworms. This study suggests an alternative approach to control the growth of M. canis using substances obtained from B. subtilis as a biomedicine agent with antifungal activity.