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Imaging molecular transport across lipid bilayers.

Biophysical journal (2011-08-03)
Su Li, Peichi C Hu, Noah Malmstadt
RESUMO

Low-molecular-weight carboxylic acids have many properties common to small molecule drugs. The transport of these acids across cell membranes has been widely studied, but these studies have produced wildly varying permeability values. Recent reports have even claimed that the transport behavior of these drugs is contrary to the rule of thumb called Overton's rule, which holds that more lipophilic molecules transport across lipid membranes more quickly. We used confocal microscopy to image the transport of carboxylic acids with different lipophilicities into a giant unilamellar lipid vesicle (GUV). Fluorescein-dextran, which acts as a pH-sensitive dye, was encapsulated in the GUV to trace the transport of acid. The GUV was immobilized on the surface of a microfluidic channel by biotin-avidin binding. This microchannel allows the rapid and uniform exchange of the solution surrounding the GUV. Using a spinning-disk confocal microscope, the entire concentration field is captured in a short (<100 ms) exposure. Results show that more lipophilic acids cross the bilayer more quickly. A finite difference model was developed to simulate the experimental process and derive permeabilities. The permeabilities change with the same trend as literature oil-water partition coefficients, demonstrating that Overton's rule applies to this class of molecules.

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Sigma-Aldrich
Hexanoic acid, ≥99%
Sigma-Aldrich
Hexanoic acid, ≥98%, FCC, FG
Sigma-Aldrich
Sodium hexanoate, 99-100%
Supelco
Hexanoic acid, analytical standard
Sigma-Aldrich
Hexanoic acid, purum, ≥98.0% (GC)