Utilize este identificador para referenciar este registo: https://hdl.handle.net/10316/19932
Título: S4(13)-PV cell-penetrating peptide induces physical and morphological changes in membrane-mimetic lipid systems and cell membranes: Implications for cell internalization
Autor: Cardoso, Ana M. S. 
Trabulo, Sara 
Cardoso, Ana L. 
Lorents, Annely 
Morais, Catarina M. 
Gomes, Paula 
Nunes, Cláudia 
Lúcio, Marlene 
Reis, Salette 
Padari, Kärt 
Pooga, Margus 
Lima, Maria C. Pedroso de 
Jurado, Amália S. 
Palavras-chave: Cell-penetrating peptide; Membrane model; DSC; Fluorescence polarization; WAXS/SAXS; Electron microscopy
Data: Mar-2012
Editora: Elsevier
Citação: CARDOSO, Ana M. S. [et. al.] - S4(13)-PV cell-penetrating peptide induces physical and morphological changes in membrane-mimetic lipid systems and cell membranes: Implications for cell internalization. "BBA - Biomembranes". ISSN 0005-2736. 1818:3 (2012) 877-888
Título da revista, periódico, livro ou evento: BBA - Biomembranes
Volume: 1818
Número: 3
Resumo: The present work aims to gain insights into the role of peptide–lipid interactions in the mechanisms of cellular internalization and endosomal escape of the S4(13)-PV cell-penetrating peptide, which has been successfully used in our laboratory as a nucleic acid delivery system. A S4(13)-PV analogue, S4(13)-PVscr, displaying a scrambled amino acid sequence, deficient cell internalization and drug delivery inability, was used in this study for comparative purposes. Differential scanning calorimetry, fluorescence polarization and X-ray diffraction at small and wide angles techniques showed that both peptides interacted with anionic membranes composed of phosphatidylglycerol or a mixture of this lipid with phosphatidylethanolamine, increasing the lipid order, shifting the phase transition to higher temperatures and raising the correlation length between the bilayers. However, S4(13)-PVscr, in contrast to the wild-type peptide, did not promote lipid domain segregation and induced the formation of an inverted hexagonal lipid phase instead of a cubic phase in the lipid systems assayed. Electron microscopy showed that, as opposed to S4(13)-PVscr, the wild-type peptide induced the formation of a non-lamellar organization in membranes of HeLa cells. We concluded that lateral phase separation and destabilization of membrane lamellar structure without compromising membrane integrity are on the basis of the lipid-driven and receptor-independent mechanism of cell entry of S4(13)-PV peptide. Overall, our results can contribute to a better understanding of the role of peptide–lipid interactions in the mechanisms of cell-penetrating peptide membrane translocation, helping in the future design of more efficient cell-penetrating peptide-based drug delivery systems.
URI: https://hdl.handle.net/10316/19932
ISSN: 0005-2736
DOI: 10.1016/j.bbamem.2011.12.022
Direitos: openAccess
Aparece nas coleções:I&D CNC - Artigos em Revistas Internacionais

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