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Calcium and Zinc Differentially Affect the Structure of Lipid Membranes.

Langmuir : the ACS journal of surfaces and colloids (2017-03-10)
Norbert Kučerka, Ermuhammad Dushanov, Kholmirzo T Kholmurodov, John Katsaras, Daniela Uhríková
RESUMEN

Interactions of calcium (Ca2+) and zinc (Zn2+) cations with biomimetic membranes made of dipalmitoylphosphatidylcholine (DPPC) were studied by small angle neutron diffraction (SAND). Experiments show that the structure of these lipid bilayers is differentially affected by the two divalent cations. Initially, both Ca2+ and Zn2+ cause DPPC bilayers to thicken, while further increases in Ca2+ concentration result in the bilayer thinning, eventually reverting to having the same thickness as pure DPPC. The binding of Zn2+, on the other hand, causes the bilayers to swell to a maximum thickness, and the addition of more Zn2+ does not result in a further thickening of the membrane. Agreement between our results obtained using oriented planar membranes and those from vesicular samples implies that the effect of cations on bilayer thickness is the result of electrostatic interactions, rather than geometrical constraints due to bilayer curvature. This notion is further reinforced by MD simulations. Finally, the radial distribution functions reveal a strong interaction between Ca2+ and the phosphate oxygens, while Zn2+ shows a much weaker binding specificity.