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Live-cell analysis of cell penetration ability and toxicity of oligo-arginines

Item Type:Article
Title:Live-cell analysis of cell penetration ability and toxicity of oligo-arginines
Creators Name:Tünnemann, G. and Ter-Avetisyan, G. and Martin, R.M. and Stoeckl, M. and Herrmann, A. and Cardoso, M.C.
Abstract:Cell penetrating peptides (CPPs) are useful tools to deliver low-molecular-weight cargoes into cells; however, their mode of uptake is still controversial. The most efficient CPPs belong to the group of arginine-rich peptides, but a systematic assessment of their potential toxicity is lacking. In this study we combined data on the membrane translocation abilities of oligo-arginines in living cells as a function of their chain length, concentration, stability and toxicity. Using confocal microscopy analysis of living cells we evaluated the transduction frequency of the L-isoforms of oligo-arginines and lysines and then monitored their associated toxicity by concomitant addition of propidium iodide. Whereas lysines showed virtually no transduction, the transduction ability of arginines increased with the number of consecutive residues and the peptide concentration, with L-R9 and L-R10 performing overall best. We further compared the L- and D-R9 isomers and found that the D-isoform always showed a higher transduction as compared to the L-counterpart in all cell types. Notably, the transduction difference between D- and L-forms was highly variable between cell types, emphasizing the need for protease-resistant peptides as vectors for drug delivery. Real-time kinetic analysis of the D- and L-isomers applied simultaneously to the cells revealed a much faster transduction for the D-variant. The latter underlies the fact that the isomers do not mix, and penetration of one peptide does not perturb the membrane in a way that gives access to the other peptide. Finally, we performed short- and long-term cell viability and cell cycle progression analyses with the protease-resistant D-R9. Altogether, our results identified concentration windows with low toxicity and high transduction efficiency, resulting in fully bioavailable intracellular peptides.
Keywords:Arginine-Rich Peptides, Cell Cycle, Cell Penetrating Peptides, Cell Viability, Membrane Integrity, Membrane Translocation, Oligo-Lysines, Oligo-Arginines, Animals, Dogs, Rats
Source:Journal of Peptide Science
Page Range:469-476
Date:April 2008
Official Publication:https://doi.org/10.1002/psc.968
PubMed:View item in PubMed

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