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Journal of Lipid Research, Vol. 42, 976-987, June 2001
Copyright © 2001 by Lipid Research, Inc.

Biochemical analysis of cell-derived apoE3 particles active in stimulating neurite outgrowth

Correspondence to: David L. Williams, To whom correspondence should be addressed., dave{at}pharm.sunysb.edu (E-mail)

Susceptibility to the development of late-onset Alzheimer's disease is increased for individuals harboring one or more apolipoprotein E4 (apoE4) alleles. Although several isoform-specific effects of apoE have been identified, the relationship between biochemical function and risk factor assessment is unknown. Our previous studies showed that a physiologically relevant cell-derived apoE3 particle stimulates neurite outgrowth in an isoform-specific manner. In an attempt to delineate the biochemical mechanism responsible for the stimulatory effects of apoE3 on neurite outgrowth, we performed a detailed physical characterization of cell-derived apoE3 and apoE4 particles. Immunoaffinity chromatography followed by SDS-PAGE illustrated homogeneity in protein content (apoE >95%). The affinity-purified particles contained phospholipid and 1 mol of cholesterol per mole of apoE but no core lipids. Nondenaturing gradient gel electrophoresis identified two major particle populations with hydrated diameters of 8.0 and 9.2 nm. Neurite outgrowth assays performed with the affinity-purified particles resulted in similar isoform-specific differences as seen previously, apoE3 stimulatory and apoE4 neutral. Interestingly, we did not observe a reduction in apoE medium concentrations over the duration of the neurite outgrowth assays, suggesting little or no endocytic uptake.

Ligand blot analysis demonstrated that the affinity-purified apoE particles bind to several Neuro-2a membrane proteins. Western blots of the Neuro-2a membrane proteins indicated that the LDL receptor, gp330, and LR8B might be involved in the apoE-binding event. These results discriminate against the lipid delivery hypothesis and suggest that the biological activity of the phospholipid apoE3 particles may be due to cell surface signaling. — DeMattos, R. B., L. L. Rudel, and D. L. Williams. Biochemical analysis of cell-derived apoE3 particles active in stimulating neurite outgrowth. J. Lipid Res. 2001. 42: 976;–987.

Supplementary key words: Alzheimer's disease, HDL, LDL receptor, LDL receptor-related protein, neurodegeneration, cholesterol

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