For example, some aromatic compounds such as indole are well know

For example, some aromatic compounds such as indole are well known for their preference of the membrane’s interfacial region between the headgroups and the hydrocarbon chains [29, 30]. Other aromatic compounds such as benzene are distributed throughout the hydrocarbon chain

region without a bias toward the polar/apolar interface [30]. Among the reasons for the preferential partitioning of indole are electrostatic interactions, hydrogen bond formation, and the steric shape of the molecule. For lipid monolayers, there is evidence that drug partitioning also depends on the lateral pressure [31]. Generally, whenever a drug molecule interacts more favorably with the interfacial or headgroup Inhibitors,research,lifescience,medical region than with the hydrocarbon tail region, the corresponding partitioning preference can be lumped into at least two energetically preferred Inhibitors,research,lifescience,medical states that correspond to the inner and outer leaflet of the membrane. Transfer between the two states (i.e., flip-flop) then introduces an additional characteristic time [32]. We note that two- or multiple-state modeling has been invoked previously to model the partitioning of amino-acid analogues in membranes [33] and the permeation of drug molecules through membranes [34, 35]. Inhibitors,research,lifescience,medical 2. Model Consider an aqueous solution (of fixed volume V) that contains a number of Nd donor and Na acceptor liposomes. Donor and acceptor

http://www.selleckchem.com/products/ly2835219.html liposomes may be either two chemically different types of liposomes (i.e., composed of different lipids) or equivalent liposomes (i.e., containing the

same lipid composition). In the latter case, the distinction between donor and acceptor Inhibitors,research,lifescience,medical liposomes refers only to their initial loading; at the end of the transport process (i.e., at thermal equilibrium), both types would be indistinguishable. The donor liposomes initially carry a total Inhibitors,research,lifescience,medical number of M poorly water-soluble drug molecules. Transfer of drug molecules from donor to acceptor liposomes will take place with time until, eventually, an equilibrium partitioning is reached. We describe the time dependence of this transfer by the number of drug molecules carried by the donor liposomes, Md(t), and by the acceptor liposomes, Ma(t). It is then initially Md(t = 0) = M and Ma(t = 0) = 0, as well as in equilibrium Md(t → ∞) = Mdeq and Ma(t → ∞) = Maeq, where Mdeq and Maeq denote the equilibrium number of drug molecules carried by donor and acceptor liposomes, respectively. Cell press We point out that, although we refer to the drug carriers as liposomes, our model is more general. That is, it can be applied to different types of mobile carriers such as micelles, colloids, nanoparticles, or polymeric aggregates, given the carrier possesses some capacity to host poorly water-soluble drug molecules. In the following, we suggest a model for the time dependence of the transfer process (i.e.

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