Cyclotides: Natural, circular plant peptides that possess significant activity against gastrointestinal nematode parasites of sheep

The cyclotides are a novel family of backbone-cyclized eystine-knot containing peptides from plants that have been shown to possess insecticidal activity against Helicoverpa larvae, an important pest of corn and cotton. In the current study, we investigated the in vitro effects of the cyclotides on the viability of egg, larval, and adult life stages of two species of economically important gastrointestinal nematode parasites of livestock, Hemonchus contortus and Trichostrongylus colubriformis. The cyclotides showed significant activity in inhibiting development of nematode larvae and motility of adult worms. Activities were comparable to some currently used anthelmintic compounds in these in vitro assay systems. A series of alanine mutants of the prototypic cyclotide kalata B I were assayed against larvae to determine regions of the peptide responsible for activity. It was observed that anthelmintic activity was dramatically reduced as a consequence of the mutation of a large number of residues that are found clustered on one surface. Activities toward larvae were equivalent in the naturally occurring L-isomer of kalata B1 and a synthetic all-D-isomer, indicating that there is no chiral requirement for anthelmintic activity. The clustering of important residues and the lack of chiral selectivity further support the proposed mode of action of the cyclotides, which involves a membrane-based interaction rather than an interaction at a specific receptor. The cyclotide-induced leakage of a fluorescent dye from vesicles used as a model membrane mimetic further confirms the membrane lytic ability of cyclotides. The relative potency of kalata B I and kalata 132 in causing membrane leakage is consistent with the order of their anthelmintic activity. These results demonstrate that the cyclotides show potential for use in the control of gastrointestinal nematode parasites.