Interaction of alkanols and local anesthetics with spin-labeled Ca(2+)-ATPase of sarcoplasmic reticulum vesicles

The EPR study of LDL perturbed by alcohols with different molecular architecture

In this work, the interaction of different isomers of lower aliphatic alcohols with LDL representing a complex macromolecular assembly is investigated in vitro. Emphasis is given to the comparison of the impact of molecular architecture of methanol, ethanol, propanol (n-, iso-) and butanol (n-, iso-, sec-, tert-) in perturbing the lipid-protein assembly. The geometrical characteristics as well as the lipophilicity of the respective alcohol are considered. The EPR method combined with the spin labeling of both the apoB and the lipid monolayer allowed parallel detection of changes provoked in both phases. In addition to the change in protein environment, the spectral decomposition of the experimental data revealed a decrease in lipid ordering with the increasing concentration of the alcohols. This phenomenon for aliphatic alcohols is linearly correlated with the equal volume occupation (EVO) of alcohol in LDL. The results support the molecular mechanism of alcohol action through its interference with the lipid-protein interactions in LDL, which could be applicable to the molecular mechanism of alcohol interaction with integral membrane proteins.

Conformational features of charged dibucaine in solution as investigated by 13C- and 1H-NMR

Conformational features of charged dibucaine in [2H6]DMSO were elucidated by measuring 13C and 1H spin-lattice relaxation rates and 1H-(1H) and 13C-(1H) nuclear Overhauser effects. The reorientational correlation time of the aromatic moiety was evaluated at 0.16 ns at room temperature and side chains were observed to display segmental motion. Relevant distances were calculated by isolating dipolar interaction terms of 1H-1H or 13C-1H pairs. The 'preferred' conformation in solution was shown to present several analogies, but also some differences, with the structures obtained by solid state experiments, energy calculations and LIS data.