Structural Determinants for the Membrane Interaction of Novel Bioactive Undecapeptides Derived from Gaegurin 5
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Abstract
Gaegurin 5 is a 24-residue, membrane-active antimicrobial peptide isolated from the skin of an Asian frog, Rana rugosa. We recently reported the antimicrobial activities of two novel undecapeptides derived from an inactive N-terminal fragment (residues 1-11) of gaegurin 5 (Won, et al. J. Biol. Chem. 2004, 279, 14784-14791). In the present work, the anticancer activities of the two antimicrobial undecapeptide analogues were additionally identified. The relationships between their structural properties and biological activities were assessed by characterizing the fundamental structural determinant for the basic membrane interaction. The circular dichroism and nuclear magnetic resonance results revealed that in a membrane-mimetic environment, the active peptides adopt a more stabilized helical conformation than that of the inactive fragment, and this conformation conferred an overall amphipathicity to the active peptides. Therefore, the most decisive factor responsible for the activity and selectivity could be the intramolecular amphipathic cooperativity, rather than the amphipathicity itself. Especially, the tryptophan residue of the active peptides seems to play a crucial role at the critical amphipathic interface that promotes and balances the amphipathic cooperativity by stabilizing both the hydrophilic and hydrophobic interactions with the membrane. Altogether, the present results suggest that the two novel undecapeptides are worthy of therapeutic development as new antibiotic and anticancer agents and provide structural information about their action mechanism.
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