Literature DB >> 29582528

Efficient cell delivery mediated by lipid-specific endosomal escape of supercharged branched peptides.

Dakota J Brock1, Lauren Kustigian1, Mengqiu Jiang1, Kristin Graham1, Ting-Yi Wang2, Alfredo Erazo-Oliveras3, Kristina Najjar1, Junjie Zhang1, Hays Rye1, Jean-Philippe Pellois1,4.   

Abstract

Various densely charged polycationic species, whether of biological or synthetic origin, can penetrate human cells, albeit with variable efficiencies. The molecular underpinnings involved in such transport remain unclear. Herein, we assemble 1, 2 or 3 copies of the HIV peptide TAT on a synthetic scaffold to generate branched cell-permeable prototypes with increasing charge density. We establish that increasing TAT copies dramatically increases the cell penetration efficiency of the peptides while simultaneously enabling the efficient cytosolic delivery of macromolecular cargos. Cellular entry involves the leaky fusion of late endosomal membranes enriched with the anionic lipid BMP. Derivatives with multiple TAT branches induce the leakage of BMP-containing lipid bilayers, liposomal flocculation, fusion and an increase in lamellarity. In contrast, while the monomeric counterpart 1TAT binds to the same extent and causes liposomal flocculation, 1TAT does not cause leakage, induce fusion or a significant increase in lamellarity. Overall, these results indicate that an increase in charge density of these branched structures leads to the emergence of lipid specific membrane-disrupting and cell-penetrating activities.
© 2018 John Wiley & Sons A/S. Published by John Wiley & Sons Ltd.

Entities:  

Keywords:  bis(monoacylglycero)phosphate; cell-penetrating peptides; cellular delivery; endosomal escape; membrane leakage; supercharged molecules

Mesh:

Substances:

Year:  2018        PMID: 29582528      PMCID: PMC5948172          DOI: 10.1111/tra.12566

Source DB:  PubMed          Journal:  Traffic        ISSN: 1398-9219            Impact factor:   6.215


  37 in total

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8.  Impact of the Endosomal Escape Activity of Cell-Penetrating Peptides on the Endocytic Pathway.

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9.  Mechanism of Cell Penetration by Permeabilization of Late Endosomes: Interplay between a Multivalent TAT Peptide and Bis(monoacylglycero)phosphate.

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