Proteases Released by Entomopathogenic Fungi Impair Phagocytic Activity, Attachment and Spreading of Plasmatocytes Isolated from Haemolymph of the Greater Wax Moth Galleria mellonella

Abstract

Reliable assays for the in vitro quantification of the attachment and spreading of isolated Galleria mellonella plasmatocytes have been established. The effects of extracellular proteases released by the entomopathogenic fungi Metarhizium anisopliae and Beauveria bassiana on the phagocytic activity, spreading, attachment and cytoskeleton formation of isolated plasmatocytes of G. mellonella were examined to elucidate their putative role in the suppression of cellular immune responses in infected insects. In addition, the influence of different commercially available proteases on isolated plasmatocytes was studied. Among the proteases tested, the metalloprotease thermolysin produced the strongest inhibitory activity on plasmatocytes. The results obtained support the conclusion that invading fungal cells could interfere with the insect immune system via the release of proteases which affect cellular defence reactions. Isolated G. mellonella plasmatocytes incubated with fungal proteases had an impaired ability to ingest yeast cells and exhibited alterations in morphology and cytoskeleton formation. The effects were similar to those observed in plasmatocytes from infected larvae. The role of extracellular fungal proteases in the interactions of entomopathogens with the insect immune system is discussed.