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J Lipid Res. 1992 Nov;33(11):1677-88.

Effects of apolipoprotein E, beta-very low density lipoproteins, and cholesterol on the extension of neurites by rabbit dorsal root ganglion neurons in vitro.

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  • 1Gladstone Institute of Cardiovascular Disease, Department of Pathology, University of California 94141-9100.

Abstract

Previous studies suggest that during nerve regeneration apoE acts as a lipid transport protein that assists in the rapid initial extension of axons and then in their myelination. To determine whether apoE and/or apoE-containing lipoproteins can modulate axon growth, we assessed their effect on the out-growth of neurites from neurons in mixed cultures of fetal rabbit dorsal root ganglion cells in vitro. Incubation with beta-very low density lipoprotein (beta-VLDL) particles, which are rich in apoE and cholesterol, increased neurite outgrowth and branching. Unesterified cholesterol added to the cultures had a similar, but less pronounced, effect. These data suggest that cholesterol might be the component responsible for the enhanced neurite growth. In contrast, purified, lipid-free apoE added to the cultures reduced neurite branching. Neurite branching was also reduced when purified apoE was added along with beta-VLDL or cholesterol; however, the striking finding was that under these conditions the neurites extended farther from the neuronal cell body. Dorsal root ganglion cells were examined for the presence of receptors for native and apoE-enriched beta-VLDL. Immunocytochemistry, ligand blots, 45Ca2+ blots, and studies of the interaction of the cells with fluorescent lipoproteins provided evidence of two types of receptors for apoE-containing lipoproteins on neurons: the low density lipoprotein (LDL) receptor, which binds native beta-VLDL, and the LDL receptor-related protein, which binds apoE-enriched beta-VLDL. These findings indicate that apoE may play two complementary roles in neurite outgrowth. When complexed with lipoproteins, apoE stimulates neurite growth by the receptor-mediated delivery of cholesterol and perhaps other components necessary for neurite outgrowth. When apoE as a free protein is added together with apoE-containing lipoproteins, apoE decreases neurite branching and promotes neurite extension away from the cell body. These actions, which would be complementary in promoting target-directed nerve growth in vivo, provide the first direct evidence that apoE and apoE-containing lipoproteins can modulate the outgrowth of neuronal processes.

PMID:
1464751
[PubMed - indexed for MEDLINE]
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