Procain interaction with DPPC multilayers: an ESR spin label investigation

Abstract

A spin label electron spin resonance (ESR) study has been carried out on the interaction between the local anesthetic procaine (PRC) and multilamellar dispersions of di-palmitoylphosphatidylcholine (DPPC). The investigation has been performed either in the gel or in the liquid crystal phase of DPPC varying the anesthetic/DPPC molar ratio as well as the pH of the dispersion medium and using spin labeled DPPC molecules (5- and 16-PCSL) and the di-tert-butyl nitroxide (DTBN) spin probe. On increasing the anesthetic concentration in the dispersion medium up to PRC/DPPC molar ratio of 33 mol.%, a lyotropic transition of the bilayer from the lamellar gel phase Lβ, to the interdigitated Lβi one is observed either at pH 5.0 or at pH 10.0. At intermediate pH values, about pH 7.0, such a PRC concentration dependent transition is absent. A decrease of the partition of the DTBN molecules between the dispersion medium and the fluid hydrophobic phase of DPPC multilayers is observed at pH 5.0 with anesthetic concentration, while an opposite behaviour is evidenced at pH 10.0. The pre- and main-phase transition temperatures of the DPPC multilayers are also affected although to different extent. These results are interpreted in terms of adsorption of the PRC molecules at the surface of the model membrane at the extreme pH values investigated, while at about neutral pH values they intercalate among the DPPC molecules. The protonation state of procaine plays an important role as it determines the way of surface adsorption of the PRC molecules in the neutral form at the high pH value and in the charged cationic form at pH 5.0.