Bacillus thuringiensis volatile organic compounds (VOCs) inhibit the growth of the pathogenic amphibian fungus, Batrachochytrium dendrobatidis while autoclaved secondary metabolites promote fungal growth

Abstract

Environmental microorganisms have a complex, dynamic relationship with flora and fauna, with consequences for the host organism that range from immunogenic to immunoprotective. The pathogenic chytrid fungus, Batrachochytrium dendrobatidis (Bd), can infect the skin of amphibians and may lead to the deadly disease, Chytridiomycosis. Some skin-associated microorganisms of amphibians have the potential to prevent or mitigate Bd infection by producing anti-fungal metabolites. Yet, the majority of environmentally derived bacteria that may inhabit amphibian skin have not been investigated for their interaction with Bd. The soil-dwelling bacteria, Bacillus thuringiensis (Bt), is a ubiquitous species that is widely applied as a natural insecticide and produces anti-fungal metabolites as a byproduct of metabolism. With the increased use of Bt-based insecticides and the potential benefit of antifungal properties, we investigated the effects of Bt against Bd. This study investigates (1) the impact of Bt volatile metabolites on the growth of Bd and (2) the impact of autoclaved Bt products on the growth of Bd in vitro. Our findings showed growth inhibition of Bd (p < 0.001) by Bt volatile organic compounds (VOC) when cultured in split petri plates, relative to the control. Yet, in a liquid culture of Bd, autoclaved secondary metabolites from Bt demonstrated a significant increase in Bd growth (p < 2.2e-16). Together these results suggest that Bt may produce metabolites that beneficially inhibit Bd in some conditions while negatively enhancing the growth of the Bd in others.