Effect of Carboxyl-Terminal Truncation on Structure and Lipid Interaction of Human Apolipoprotein E4

Abstract

Apolipoprotein (apo) E4 has been identified as a major risk factor for Alzheimer's disease. Recently, apoE4 was found to undergo proteolytic cleavage in Alzheimer's disease brains, resulting in neurotoxic C-terminal-truncated fragments. In this study, we examined the effect of progressive truncation of the C-terminal domain in apoE4 on its lipid-free structure and lipid binding properties. Circular dichroism measurements demonstrated that deletion of residues 273-299 or 261-299 significantly decreased the number of helical residues, suggesting that the C-terminal residues 261-299 have alpha-helical structure. Although the progressive deletions in the C-terminal domain appear to somewhat increase thermal stability, apoE4 (delta273-299) and apoE4 (delta261-299) showed stability similar to that of the apoE4 22-kDa fragment (residues 1-191) when denatured with guanidine-HCl, indicating that residues 192-272 have a negligible effect on the stability of the C-terminal-truncated apoE4. Comparison of Trp-264 fluorescence in single Trp mutants of full-length and C-terminal-truncated apoE4 (delta273-299) indicated that the C-terminal domain structure in the latter is both less organized and cooperative. In addition, comparison of the binding of the C-terminal-truncated mutants to a hydrophobic fluorescent dye and to lipid emulsions revealed that residues 261-272 create a hydrophobic site which is critical for lipid binding. These results suggest that removal of a hydrophobic C-terminal alpha-helical segment (residues 273-299) to create C-terminal-truncated apoE4 forms found in brain leads to less organized C-terminal structure while still retaining a second alpha-helical lipid-binding region (residues 261-272) that is available for interaction with cell membranes and other proteins such as amyloid beta peptide.