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Quantitative analysis of molecular partition towards lipid membranes using surface plasmon resonance

Understanding the interplay between molecules and lipid membranes is fundamental when studying cellular and biotechnological phenomena. Partition between aqueous media and lipid membranes is key to the mechanism of action of many biomolecules and drugs. Quantifying membrane partition, through adequate and robust parameters, is thus essential. Surface Plasmon Resonance (SPR) is a powerful technique for studying 1:1 stoichiometric interactions but has limited application to lipid membrane partition data. We have developed and applied a novel mathematical model for SPR data treatment that enables determination of kinetic and equilibrium partition constants. The method uses two complementary fitting models for association and dissociation sensorgram data. The SPR partition data obtained for the antibody fragment F63, the HIV fusion inhibitor enfuvirtide, and the endogenous drug kyotorphin towards POPC membranes were compared against data from independent techniques. The comprehensive kinetic and partition models were applied to the membrane interaction data of HRC4, a measles virus entry inhibitor peptide, revealing its increased affinity for, and retention in, cholesterol-rich membranes. Overall, our work extends the application of SPR beyond the realm of 1:1 stoichiometric ligand-receptor binding into a new and immense field of applications: the interaction of solutes such as biomolecules and drugs with lipids

Scientific Reports, 2017, vol.7, art. núm. 45647

Nature Publishing Group

Autor: Figueira, Tiago N.
Freire, João M.
Cunha Santos, Catarina
Heras i Corominas, Montserrat
Gonçalves, João
Moscona, Anne
Porotto, Matteo
Veiga, Anna Salomé
Castanho, Miguel Augusto Rico Botas
Data: 30 març 2017
Resum: Understanding the interplay between molecules and lipid membranes is fundamental when studying cellular and biotechnological phenomena. Partition between aqueous media and lipid membranes is key to the mechanism of action of many biomolecules and drugs. Quantifying membrane partition, through adequate and robust parameters, is thus essential. Surface Plasmon Resonance (SPR) is a powerful technique for studying 1:1 stoichiometric interactions but has limited application to lipid membrane partition data. We have developed and applied a novel mathematical model for SPR data treatment that enables determination of kinetic and equilibrium partition constants. The method uses two complementary fitting models for association and dissociation sensorgram data. The SPR partition data obtained for the antibody fragment F63, the HIV fusion inhibitor enfuvirtide, and the endogenous drug kyotorphin towards POPC membranes were compared against data from independent techniques. The comprehensive kinetic and partition models were applied to the membrane interaction data of HRC4, a measles virus entry inhibitor peptide, revealing its increased affinity for, and retention in, cholesterol-rich membranes. Overall, our work extends the application of SPR beyond the realm of 1:1 stoichiometric ligand-receptor binding into a new and immense field of applications: the interaction of solutes such as biomolecules and drugs with lipids
Format: application/pdf
Cita: https://doi.org/10.1038/srep45647
ISSN: 2045-2322
Accés al document: http://hdl.handle.net/10256/14262
Llenguatge: eng
Editor: Nature Publishing Group
Col·lecció: Reproducció digital del document publicat a: https://doi.org/10.1038/srep45647
Articles publicats (D-Q)
És part de: Scientific Reports, 2017, vol.7, art. núm. 45647
Drets: Attribution 3.0 Spain
URI Drets: http://creativecommons.org/licenses/by/3.0/es/
Matèria: Estequiometria
Stoichiometry
Membranes lipídiques
Lipid membranes
Ressonància de plasmons superficials
Surface plasmon resonance
Títol: Quantitative analysis of molecular partition towards lipid membranes using surface plasmon resonance
Tipus: info:eu-repo/semantics/article
Repositori: DUGiDocs

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