4.6 Article

Apolipoprotein E level and cholesterol are associated with reduced synaptic amyloid beta in Alzheimer's disease and apoE TR mouse cortex

Journal

ACTA NEUROPATHOLOGICA
Volume 123, Issue 1, Pages 39-52

Publisher

SPRINGER
DOI: 10.1007/s00401-011-0892-1

Keywords

Synaptosome; Flow cytometry; Filipin; Ganglioside GM1; Triple transgenic mouse; Triple transgenic rat

Funding

  1. NIH [AG27465, NS43946, CA16042, AI 28697]
  2. NIA [AG18879, K08 AG-34628]
  3. Daljit S. and Elaine Sarkaria Chair in Diagnostic Medicine
  4. JCCC
  5. UCLA AIDS Institute
  6. David Geffen School of Medicine
  7. Office at UCLA
  8. AFAR
  9. John A. Hartford Foundation
  10. Atlantic Philanthropies
  11. Starr Foundation

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The apolipoprotein E4 allele (APOE4) contributes to Alzheimer's disease (AD) risk and APOE2 is protective, but the relevant cellular mechanisms are unknown. We have used flow cytometry analysis to measure apolipoprotein E (apoE) and amyloid beta peptide (A beta) levels in large populations of synaptic terminals from AD and aged cognitively normal controls, and demonstrate that modest but significant increases in soluble apoE levels accompany elevated A beta in AD cortical synapses and in an APP/PS1 rat model of AD. Dual labeling experiments document co-localization of apoE and A beta in individual synapses with concentration of A beta in a small population of apoE-positive synapses in both AD and controls. Consistent with a clearance role, the apoE level was higher in A beta-positive synapses in control cases. In aged targeted replacement mice expressing human apoE, apoE2/4 synaptic terminals demonstrated the highest level of apoE and the lowest level of A beta compared to apoE3/3 and apoE4/4 lines. In apoE2/4 terminals, the pattern of immunolabeling for apoE and A beta closely resembled the pattern in human control cases, and elevated apoE was accompanied by elevated free cholesterol in apoE2/4 synaptic terminals. These results are consistent with a role for APOE in A beta clearance in AD synapses, and suggest that optimal lipidation of apoE2 compared to E3 and E4 makes an important contribution to A beta clearance and synaptic function.

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