Structure-function studies of human apolipoprotein A-V: a regulator of plasma lipid homeostasis.

To investigate structure and function relations of a new member of the exchangeable apolipoprotein family that modulates plasma lipid levels, recombinant human apolipoprotein (apo) A-V was produced in Escherichia coli and isolated by a combination of nickel chelation affinity chromatography and reversed-phase HPLC. Antibodies directed against apoA-V were generated and employed in immunoblotting experiments. Anti-apoA-V IgG gave a strong response against recombinant apoA-V from E. coli and human apoA-V expressed in transgenic mice, but did not recognize human apoA-I or apoA-IV. In neutral-pH buffers, at concentrations of >0.1 mg/mL, isolated lipid-free apoA-V is poorly soluble. By contrast, apoA-V is soluble in 50 mM sodium citrate (pH 3.0). Far-UV circular dichroism analysis and spectral deconvolution reveal that apoA-V possesses 32% alpha-helix, 33% beta-sheet, 16% beta-turn, and 18% random coil secondary structure conformers. Temperature-induced denaturation studies gave rise to a transition midpoint of 47.1 degrees C. Upon being cooled to ambient temperature from 85 degrees C, apoA-V failed to recover all of the negative ellipticity present in unheated apoA-V. ApoA-V interacts with bilayer vesicles of dimyristoylphosphatidylcholine to form discoidal complexes with diameters in the range of 15-20 nm. However, apoA-V was a poor activator of lecithin:cholesterol acyltransferase where the activity was 8.5 +/- 1.8% of that of apoA-I. Furthermore, apoA-V failed to support enhanced efflux of cholesterol from cAMP-treated J774 macrophages, although low levels of efflux were obtained from unstimulated cells. Taken together, the results demonstrate recombinant apoA-V possesses unique structural and functional characteristics, in keeping with its proposed role in the modulation of plasma lipid levels.