Translocation of a β-Peptide Across Cell Membranes

Citations Over TimeTop 10% of 2001 papers

Abstract

Short cationic peptides derived from DNA-binding proteins, of which HIV Tat is a prototype, can cross the membranes of living cells, and they can bring covalently attached moieties (proteins, drugs) along with them. We show that a beta-amino acid analogue of Tat 47-57 enters HeLa cells with comparable efficiency to Tat 47-57 itself (YGRKKRRQRRR). The beta-peptide is comprised of residues that bear the appropriate side chain at the beta-carbon. Both the alpha- and the beta-peptide were conjugated to fluorescein at the N terminus, and cell penetration was monitored by confocal fluorescence microscopy. Deletion of the three C-terminal arginine residues from the alpha-peptide abolished translocation activity, consistent with prior reports, and deletion of the three C-terminal beta3-homoarginine residues from the beta-peptide had a similarly adverse effect. Thus, alpha- and beta-peptide translocation processes show similar length/charge dependence. The beta-peptide appeared to be largely unfolded in water, which is consistent with the behavior of short Tat-derived alpha-peptides, but in methanol the beta-peptide adopted a helical conformation, in contrast to short Tat-derived alpha-peptides. Our results show that neither altering the oligomeric backbone (amide group spacing) nor increasing the intrinsic propensity to adopt a specific secondary structure affects translocation activity.

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