Intra-hemocoel injection of pseurotin A from Metarhizium anisopliae, induces dose-dependent reversible paralysis in the Greater Wax Moth (Galleria mellonella)

Abstract

Species from the Metarhizium genus are the causal agents of the green muscardine disease of insects. These fungi have been successfully employed for the biological control of pests over decades. Besides the biocontrol applications, recent efforts for genome sequencing of species in this genus have revealed a great diversity of biosynthetic gene clusters potentially associated with secondary metabolite synthesis. Amongst such molecules are the pseurotins, compounds with several activities, as chitin synthase inhibitors, and immunoglobulin E suppressors. Here, we report, for the first time, the isolation of pseurotin A from the culture broth of M. anisopliae, as well as the characterization of the effects of this compound over the model-arthropod Galleria mellonella. Pseurotin A displayed dose-dependent reversible paralysis effects when injected into the larvae hemocoel. However, the posterior challenge of the treated insects with M. anisopliae conidia did not lead to increased mortality, suggesting that pseurotin A treatment did not increase larvae susceptibility to the green muscardine disease. Although apparent insecticidal effects were not observed for pseurotin A, the paralysis effect observed can be important in M. anisopliae infection development.

Keywords: Galleria mellonella; Metarhizium; Pseurotin A; Secondary metabolites; Virulence determinants.