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Designed Synthetic Analogs of the α-helical Peptide Temporin-La with Improved Antitumor Efficacies Via Charge Modification and Incorporation of the Integrin αvβ3 Homing Domain

Overview
Journal J Pept Sci
Specialty Biochemistry
Date 2012 May 30
PMID 22641352
Citations 11
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Abstract

How to target cancer cells with high specificity and kill cancer cells with high efficiency remains an urgent demand for anticancer drugs. Temporin-La, which belongs to the family of temporins, presents antitumor activity against many cancer cell lines. We first used a whole bioinformatic analysis method as a platform to identify new anticancer antimicrobial peptides (AMPs). On the basis of these results, we designed a temporin-La analog (temporin-Las) and related constructs containing the Arg-Gly-Asp (RGD) tripeptide, the integrin αvβ3 homing domain (RGD-La and RGD-Las). We detected a link between the net charges and integrin αvβ3 expression of cancer cell lines and the antitumor activities of these peptides. Temporin-La and its synthetic analogs inhibited cancer cell proliferation in a dose-dependent manner. Evidence was provided that the affinity between RGD-Las and tumor cell membranes was stronger than other tested peptides using a pull-down assay. Morphological changes on the cell membrane induced by temporin-La and RDG-Las, respectively, were examined by scanning electron microscopy. Additionally, time-dependent morphological changes were detected by confocal microscopy, where the binding process of RGD-Las to the cell membrane could be monitored. The results indicate that the electrostatic interaction between these cationic peptides and the anionic cell membrane is a major determinant of selective cell killing. Thus, the RGD tripeptide is a valuable ligand motif for tumor targeting, which leads to an increased anticancer efficiency by RGD-Las. These AMP-derived peptides have clinical potential as specifically targeting agents for the treatment of αvβ3 positive tumors.

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