4.6 Article

Interaction of Peptidomimetics with Bilayer Membranes: Biophysical Characterization and Cellular Uptake

Journal

LANGMUIR
Volume 28, Issue 11, Pages 5167-5175

Publisher

AMER CHEMICAL SOC
DOI: 10.1021/la204033u

Keywords

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Funding

  1. Faculty of Pharmaceutical Sciences, University of Copenhagen
  2. Danish Agency for Science, Technology and Innovation
  3. Swedish Research Council
  4. Danish National Advanced Technology Foundation

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Enzymatically stable cell-penetrating alpha-peptide/beta-peptoid peptidomimetics constitute promising drug delivery vehicles for the transport of therapeutic biomacromolecules across membrane barriers. The aim of the present study was to elucidate the mechanism of peptidomimetic-lipid bilayer interactions. A series of peptidomimetics consisting of alternating cationic and hydrophobic residues displaying variation in length and N-terminal end group were applied to fluid-phase, anionic lipid bilayers, and their interaction was investigated using isothermal titration calorimetry (ITC) and ellipsometry. Titration of lipid vesicles into solutions of peptidomimetics resulted in exothermic adsorption processes, and the interaction of all studied peptidomimetics with anionic lipid membranes was found to be enthalpy-driven. The enthalpy and Gibbs free energy (Delta G) proved more favorable with increasing chain length. However, not all charges contribute equally to the interaction, as evidenced by the charge-normalized Delta G being inversely correlated to the sequence length. Ellipsometry data suggested that the hydrophobic residues also played an important role in the interaction process. Furthermore, Delta G extracted from ellipsometry data showed good agreement with that obtained with ITC. To further elucidate their interaction with biological membranes, quantitative uptake and cellular distribution were studied in proliferating HeLa cells by flow cytometry and confocal microscopy. The cellular uptake of carboxyfluorescein-labeled peptidomimetics showed a similar ranking as that obtained from the adsorbed amount, and binding energy to model membranes demonstrated that the initial interaction with the membrane is of key importance for the cellular uptake.

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