Interaction of new VV-hemorphin-5 analogues with cell membrane models

New analogues of the endogenous heptapeptide VV-hemorphin-5 (valorphin) synthesised by amino acid replacement allow for tailoring the peptide activity in vivo. Investigation of hemorphin-induced alterations of lipid bilayers' physicochemical parameters unravels membrane-mediated mechanisms of interaction with cells and subcellular structures. We studied the effect of modified valorphins with nociceptive activity on the struc-ture, mechanical and electrical properties of lipid membrane models. Lower bending rigidity and higher specific capacitance of phosphatidylcholine bilayers were found in the presence of VV-hemorphin-5 analogues. Peptide partition constants for the transfer from the aqueous solution into the membrane were determined by isothermal titration calorimetry. It was found that the inclusion of non-proteinogenic acids with different number of methylene groups lead to alterations of hemorphin-membrane binding. The highest membrane affinity was obtained for a hemorphin derivative with dose-dependent variable effects on visceral nociception in mice. The valorphin analogue with the most pronounced anti-nociceptive effect in vivo induced the highest dipole and zeta potential change without significantly affecting the lipid packing at glycerol level in phosphatidylcholine bilayers.

Automated summary

New analogues of VV-hemorphin-5 were synthesised to tailor the peptide activity in vivo. Investigation of the alterations of lipid bilayers' physicochemical parameters induced by hemorphin revealed the membrane-mediated mechanisms of interaction with cells and subcellular structures. Modified valorphins were found to have lower bending rigidity and higher specific capacitance in phosphatidylcholine bilayers.