Physics – Condensed Matter – Soft Condensed Matter
Scientific paper
2000-09-19
Physics
Condensed Matter
Soft Condensed Matter
five figures, to appear in Biophys. J
Scientific paper
10.1016/S0006-3495(01)76141-3
The design of vesicles which become unstable at an easily tuned value of pH is of great interest for targeted drug delivery. We present a microscopic theory for two forms of such vesicles. A model of lipids introduced by us previously is applied to a system of ionizable, anionic lipid, and permanently charged, cationic lipid. We calculate the pH at which the lamellar phase becomes unstable with respect to an inverted hexagonal one, a value which depends continuously on the system composition. Identifying this instability with that displayed by unilamellar vesicles undergoing fusion, we obtain very good agreement with the recent experimental data of Hafez et al., Biophys. J. 2000 79: 1438-1446, on the pH at which fusion occurs vs. vesicle composition. We explicate the mechanism in terms of the role of the counter ions. This understanding suggests that a system of a neutral, non lamellar forming lipid stabilized by an anionic lipid would serve equally well for preparing tunable, pH sensitive vesicles. Our calculations confirm this. Further, we show that both forms of vesicle have the desirable feature of exhibiting a regime in which the pH at instability is a rapidly varying function of the vesicle composition.
Li Xiao-jun
Schick Michael
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