Optimum adsorption of phospholipid bilayer on silica and reconstitution of receptor function. / Adsorção ótima de bicamada fosfolipídica sobre sílica e reconstituição do reconhecimento receptor-ligante

AUTOR(ES)
DATA DE PUBLICAÇÃO

2006

RESUMO

The general objective of this project was to continue evaluating the suitability of amphiphiles that aggregate in aqueous solution forming bilayers, to cover surfaces of silica. A secondary objective pursued was to promote the reconstitution of the receptor-ligand function, having as a model the monosialoganglioside GM1 and the enterotoxin of the choleric vibrio. The results may prove to be valuable in pure research or practical applications for sensing and detection of biomolecules. The adsorption and stability of phosphatidylcholine (PC) bilayers or mixtures of dipalmitoylphosphatidylcholine (DPPC) and dioctadecyldimethylammonium bromide (DODAB) over surfaces of silica nanoparticles were evaluated through adsorption isotherms by inorganic phosphate dosage, sedimentation analysis by means of photographic images and measurements of hydrodynamic diameter (Dz) and zeta-potentials (ζ) of particles by photon correlation spectroscopy. The affinity between the bilayers and the nanoparticles surfaces and the general system stability were evaluated as a function of ionic strength, pH and added lipid concentration. The affinity showed a correlation with the van der Waals and the hydrogen bridges forces that form between the chemical groups of the amphiphile and the silica surface. The formation of a single lipid PC bilayer over the silica was detected, leading to the colloidal stability of the particulate system. Mixed bilayers of DPPC/DODAB on the other hand showed a decreasing affinity for silica with an increasing DODAB percentage in the bilayer. Data from isotherms and ζ of particles suggests a physical separation of the DPPC and DODAB. The optimized array of silica particle/PC bilayer (biomimetic particles) was thus used to promote the incorporation of micellar GM1 into the bilayers, measured by fluorescence with a GM1 pirene probe, followed by the cholera toxin (CT) binding to the resulting array. GM1 transfer from micelles to particles showed dependence on the adsorbed bilayers availability and on the absence of non-adsorbed bilayers, free in the bulk solution. To evaluate CT binding to biomimetic particles adsorption isotherms were calculated from the dosage of unbound protein remaining in the supernatant. Specific binding of CT in the presence of PC and GM1 bilayer was 67% mass of total protein added, indicating a positive binding between receptor and ligand. Stoichiometry revealed that the molar proportion PC: GM1: CT is 300: 5: 1 respectively. The proportion of 1 CT: 5 GM1 is in good agreement with data in the literature where X-ray diffraction tests show the 3-dimensional structure of the CTB5 pentamer bound to five units of the pentasaccharide GM1.

ASSUNTO(S)

lipossoma gm1 aerosil-ox 50 gm1 cholera toxin aerosil-ox 50 fosfolipídios toxina da cólera biosensors fosfatidilcolina biosensores adsorção de bicamadas bilayer adsorption pospholipids

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