Fragments of Locusta migratoria apoLp-III provide insight into lipid binding

Abstract

Apolipophorin III (apoLp-III) from Locusta migratoria is an exchangeable apolipoprotein with a critical role in lipid transport in insects. The protein is composed of a bundle of five amphipathic α-helices which undergo a large conformational change upon lipid binding. To better understand the apoLp-III lipid binding interaction, the protein was cleaved by cyanogen bromide upon introduction of a S92M mutation, generating an N-terminal fragment corresponding to the first three helices (NTH1-3) and a C-terminal fragment of the last two helices (CTH4-5). MALDI-TOF analysis of the HPLC purified fragments provided masses of 9863.8 Da for NTH1-3 and 7497.0 Da for CTH4-5 demonstrating that the intended fragments were obtained. Circular dichroism spectra revealed a decrease in helical content from 82% for the intact protein to 57% for NTH1-3 and 41% for CTH4-5. The fragments adopted considerably higher α-helical structure in the presence of trifluoroethanol or phospholipids. Equimolar mixing of the two fragments did not result in changes in helical content or tryptophan fluorescence, indicating recombination into the native protein fold did not occur. The rate of protein induced dimyristoylphosphatidylcholine vesicle solubilization increased 15-fold for NTH1-3 and 100-fold for CTH4-5 compared to the intact protein. Despite the high activity in phospholipid vesicle interaction, CTH4-5 did not protect phospholipase-treated low-density lipoprotein from aggregation. In contrast, NTH1-3 provided protection to lipoprotein aggregation similar to the intact protein, indicating that specific amino acid residues in this part of apoLp-III are essential for lipoprotein binding interaction.