Abstract

Antimicrobial peptides (AMPs) are originally developed for anti-infective treatments. Because of their membrane-lytic property, AMPs have been considered as candidates of antitumor agents for a long time. However, their antitumor applications are mainly hampered by fast renal clearance and high systemic toxicities. This study proposes a strategy aiming at addressing these two issues by conjugating AMPs with porphyrins, which bind to albumin increasing AMPs' resistance against renal clearance and thus enhancing their antitumor efficacies. Porphyrins' photodynamic properties can further augment AMPs' antitumor effects. In addition, circulating with albumin ameliorates AMPs' systemic toxicities, i.e. hemolysis and organ dysfunctions. As an example, we conjugated an AMP, K6L9, with pyropheophorbide-a (PPA) leading to a conjugate of PPA-K6L9. PPA-K6L9 bound to albumin with a KD value at the sub-micromolar range. Combining computational and experimental approaches, we characterized the molecular interaction of PPA-K6L9 with albumin. Furthermore, PPA-conjugation promoted K6L9' antitumor effects by prolonging its invivo retention time, and reduced the hemolysis and hepatic injuries, which confirmed our design strategy.

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