Anesthetic drugs have been in use for over 160 years in surgery, but their mode of action remains largely unresolved. We have studied the effect of (R)-(-)-ketamine on the biophysical properties of lipid model membranes composed of palmitoyloleoylphosphatidylcholine by a combination of X-ray diffraction and all-atom molecular dynamics simulations. In agreement with several previous studies, we do not find significant changes to the membrane thickness and lateral area per lipid up to 8 mol % ketamine content. However, we observed that the insertion of ketamine within the lipid/water interface caused significant changes of lateral pressure and a pressure shift toward the center of the bilayer. The changes are predicted to be large enough to affect the opening probability of ion channels as derived for two protein models. Depending on the protein model, we found inhibition values of IC(50) = 2 mol % and 18 mol % ketamine, corresponding to approximately 0.08 and 0.9 mu M concentrations in the blood circulation, respectively. This compares remarkably well with clinical applied concentrations. We thus provide evidence for a lateral pressure mediated mode of anesthesia, first proposed more than 10 years ago.

• 出版日期2010-6-16