Coupling Optical and Electrical Measurements in Artificial Membranes: Lateral Diffusion of Lipids and Channel Forming Peptides in Planar Bilayers.

Planar lipid bilayers (PLB) were prepared by the Montal-Mueller technique in a FRAP system designed to simultaneously measure conductivity across, and lateral diffusion of, the bilayer. In the first stage of the project the FRAP system was used to characterise the lateral dynamics of bilayer lipids with regards to phospholipid composition (headgroup, chain unsaturation etc.), presence of cholesterol and the effect of divalent cations on negatively-charged bilayers.

The activation state of alphavbeta 3 regulates platelet and lymphocyte adhesion to intact and thrombin-cleaved osteopontin.

Cleavage of osteopontin by thrombin has been reported to enhance cell adhesion. We asked whether thrombin could regulate the alpha(v)beta(3)-mediated adhesion of platelets and B lymphocytes to this substrate. Although there was no difference in the extent or the avidity of thrombin- and ADP-stimulated platelet adhesion to intact or thrombin-cleaved human osteopontin, both the extent and avidity of phorbol ester-stimulated B cell adhesion to thrombin-cleaved osteopontin was significantly increased.

Correlation between anti-bacterial activity and pore sizes of two classes of voltage-dependent channel-forming peptides.

Anti-bacterial activities were compared for two series of voltage-dependent pore-formers: (i) alamethicin (Alm) and its synthetic analogs (Alm-dUL) where alpha-amino-isobutyric acid residues (Aibs) were replaced by leucines and selected key residues substituted and (ii) homologous voltage sensors of the electric eel sodium channel (repeats S4L45 (III) and S4L45 (IV)). Spiroplasma melliferum, a bacterium related to the mycoplasmas, was used as a target cell. The data show that with respect to growth inhibition, cell deformation and plasma membrane depolarization, the highest efficient peptide remained natural Alm although the minimal inhibitory concentrations of its Leu analogs were within the same range as the parent molecule, except for Alm-dUL P14A.

Sodium channel fragments: contributions to voltage sensitivity and ion selectivity.

The peptide strategy was employed to resolve structure-function relationships in the voltage-dependent sodium channel Two families of motifs were studied: the four voltage sensors S4 extended with the short cytoplasmic linkers L45 and the four P-regions, between S5 and S6, each from the homologous domains of the electric eel sodium channel. Macroscopic conductance experiments conducted with synthetic S4L45s in neutral lipid planar bilayers pointed to a moderate voltage-sensitivity for repeat IV which has no proline, whereas S4L45 of repeats I and II (Pro 19) and especially of repeat III (Pro 14) were much more voltage-sensitive. The influence both of Pro and its position within the sequence was confirmed by comparing the human skeletal muscle channel isoform D4/S4 wild-type and the R4P analogue.

Voltage sensitivity and conformational change of isolated S4L45 fragments from sodium channels are tuned to proline.

Peptide fragments reproducing the sequences of S4 segments extended with L45 linkers from the four homologous domains of the electric eel sodium channel were chemically synthesized and purified to allow circular dichroism studies in various solvents and conductance assays in planar lipid bilayers. Repeats III (with proline) and IV (lacking proline) present the lowest and highest helicities, respectively. The conformational transition (from helix to beta-strand) shown to occur on an increase of solvent dielectric constant is broader with repeat III.