Venom Peptides Cathelicidin and Lycotoxin Cause Strong Inhibition of Escherichia coli ATP Synthase

Azim, Sofiya, McDowell, Derek, Cartagena, Alec, Rodriguez, Ricky, Laughlin, Thomas F., Ahmad, Zulfiqar

01 June 2016

Venom peptides are known to have strong antimicrobial activity and anticancer properties. King cobra cathelicidin or OH-CATH (KF-34), banded krait cathelicidin (BF-30), wolf spider lycotoxin I (IL-25), and wolf spider lycotoxin II (KE-27) venom peptides were found to strongly inhibit Escherichia coli membrane bound F1Fo ATP synthase. The potent inhibition of wild-type E. coli in comparison to the partial inhibition of null E. coli by KF-34, BF-30, Il-25, or KE-27 clearly links the bactericidal properties of these venom peptides to the binding and inhibition of ATP synthase along with the possibility of other inhibitory targets. The four venom peptides KF-34, BF-30, IL-25, and KE-27, caused ≥85% inhibition of wild-type membrane bound E.coli ATP synthase. Venom peptide induced inhibition of ATP synthase and the strong abrogation of wild-type E. coli cell growth in the presence of venom peptides demonstrates that ATP synthase is a potent membrane bound molecular target for venom peptides. Furthermore, the process of inhibition was found to be fully reversible.

cathelicidin

E. coli F F ATP synthase 1 o

F -ATPase 1

lycotoxin I

lycotoxin II

OH-CATH

venom peptides

Biological Sciences