Abstract
Apolipoprotein E7 (apoE7) (apoE3 E244K/E245K) is a naturally occurring mutant in humans that is associated with increased plasma lipid levels and accelerated atherosclerosis. It is reported to display defective binding to low density lipoprotein (LDL) receptors, high affinity binding for heparin, and like apoE4, preferential association with very low density lipoproteins (VLDL). There are two potential explanations for the preference of apoE7 for VLDL: lysine mutations, which occur in the major lipid-binding region (residues 244–272) of the carboxy-terminal domain of apoE7, could either directly determine the lipoprotein-binding preference or could interact with negatively charged residues in the amino-terminal domain, resulting in a domain interaction similar to that in apoE4 (interaction of Arg-61 with Glu-255), which is responsible for the apoE4 VLDL preference. To distinguish between these possibilities, we determined the binding preferences of recombinant apoE7 and two amino-terminal domain mutants, apoE7 (E49Q/E50Q) and apoE7 (D65N/E66Q), to VLDL-like emulsion particles. ApoE7 and both mutants displayed a higher preference for the emulsion particles than did apoE3, indicating that the carboxy-terminal lysine mutations in apoE7 are directly responsible for its preference for VLDL. Supporting this conclusion, the carboxy-terminal domain 12-kDa fragment of apoE7 (residues 192–299) displayed a higher preference for VLDL emulsions than did the wild-type fragment. In addition, lipid-free apoE7 had a higher affinity for heparin than did apoE. However, when apoE7 was complexed with dimyristoylphosphatidylcholine or VLDL emulsions, the affinity difference was eliminated. In contrast to previous studies, we found that apoE7 does not bind defectively to the LDL receptor, as determined in both cell culture and solid-phase assays. We conclude that the two additional lysine residues in the carboxy-terminal domain of apoE7 directly alter its lipid- and heparin-binding affinities. These characteristics of apoE7 could contribute to its association with increased plasma lipid levels and atherosclerosis.—Dong, J., M. E. Balestra, Y. M. Newhouse, and K. H. Weisgraber. Human apolipoprotein E7: lysine mutations in the carboxy-terminal domain are directly responsible for preferential binding to very low density lipoproteins. J. Lipid Res. 2000. 41: 1783–1789.
Highlights
Apolipoprotein E7 is a naturally occurring mutant in humans that is associated with increased plasma lipid levels and accelerated atherosclerosis
To determine whether the second heparin-binding site of Apolipoprotein E7 (apoE7) is masked by lipids, as it is in apoE3 [5], we examined complexes of apoE3 and apoE7 with DMPC and very low density lipoproteins (VLDL)-like emulsion particles
The results from our mutagenesis studies and binding assays using VLDL-like emulsion particles demonstrate that domain interaction is not responsible for the VLDL preference of apoE7
Summary
Apolipoprotein E7 (apoE7) (apoE3 E244K/E245K) is a naturally occurring mutant in humans that is associated with increased plasma lipid levels and accelerated atherosclerosis. We conclude that the two additional lysine residues in the carboxy-terminal domain of apoE7 directly alter its lipid- and heparin-binding affinities. These characteristics of apoE7 could contribute to its association with increased plasma lipid levels and atherosclerosis.—Dong, J., M. Apolipoprotein E (apoE) (299 residues, Mr ϭ 34,200) plays a key role in lipoprotein metabolism [1, 2] It is a constituent of several classes of plasma lipoproteins [3] and serves as a high affinity ligand for the low density lipoprotein (LDL) receptor family, heparan sulfate proteoglycans (HSPG), and heparin. For VLDL may contribute, by an unknown mechanism, to the increased plasma cholesterol and LDL levels and the increased risk for cardiovascular disease associated with this isoform [13]
Sign-in/Register to view highlights & summary Sign-in/Register to access full text options 
Free) 
Talk to us
Join us for a 30 min session where you can share your feedback and ask us any queries you have
Schedule a call
