Published 8 July 2024 in Journal of Chemical Information and Modeling (doi 10.1021/acs.jcim.4c00722):
Simulating the skin permeation process of ionizable molecules
Magnus Lundborg,* Christian Wennberg, Erik Lindahl, Lars Norlén*
It is commonly assumed that ionizable molecules, such as drugs, permeate through the skin barrier in their neutral form. By using molecular dynamics simulations of the charged and neutral states separately, we can study the dynamic protonation behavior during the permeation process. We have studied three weak acids and three weak bases and conclude that the acids are ionized to a larger extent than the bases, when passing through the headgroup region of the lipid barrier structure, at pH values close to their pKa. It can also be observed that even if these dynamic protonation simulations are informative, in the cases studied herein they are not necessary for the calculation of permeability coefficients. It is sufficient to base the calculations only on the neutral form, as is commonly done.
*Co-corresponding authors
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