Takahisa Kanekiyo scite author profile

Apolipoprotein E (ApoE) is a major cholesterol carrier that supports lipid transport and injury repair in the brain. APOE polymorphic alleles are the main genetic determinants of Alzheimer disease (AD) risk: individuals carrying the ε4 allele are at increased risk of AD compared with those carrying the more common ε3 allele, whereas the ε2 allele decreases risk. Presence of the APOE ε4 allele is also associated with increased risk for cerebral amyloid angiopathy and age-related cognitive decline during normal ageing. ApoE–lipoproteins bind to several cell-surface receptors to deliver lipids and also to hydrophobic amyloid-β (Aβ) peptide, which is thought to initiate toxic events that lead to synaptic dysfunction and neurodegeneration in AD. ApoE isoforms differentially regulate Aβ aggregation and clearance in the brain, and have distinct functions in regulating brain lipid transport, glucose metabolism, neuronal signalling, neuroinflammation, and mitochondrial function. In this Review, we describe current knowledge on ApoE in the CNS, with a particular emphasis on the clinical and pathological features associated with carriers of different ApoE isoforms. We also discuss Aβ-dependent and Aβ-independent mechanisms that link ApoE4 status with AD risk, and consider how to design effective strategies for AD therapy by targeting ApoE.

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ApoE and Aβ in Alzheimer’s Disease: Accidental Encounters or Partners?

Kanekiyo

2014

Neuron

502

478

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Among the three human apolipoprotein E (apoE) isoforms, apoE4 increases the risk of Alzheimer’s disease (AD). While transporting cholesterol is a primary function, apoE also regulates amyloid-β (Aβ) metabolism, aggregation and deposition. Although earlier work suggests that different affinities of apoE isoforms to Aβ might account for their effects on Aβ clearance, recent studies indicate that apoE also competes with Aβ for cellular uptake through apoE receptors. Thus, several factors likely determine the variable effects apoE has on Aβ. In this review, we examine biochemical, structural, and functional studies and propose testable models that address the complex mechanisms underlying apoE-Aβ interaction and how apoE4 may increase AD risk and also serve as a target pathway for therapy.

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Central role for PICALM in amyloid-β blood-brain barrier transcytosis and clearance

et al. 2015

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PICALM is highly validated genetic risk factor for Alzheimer’s disease (AD). Here, we report that PICALM reductions in AD and murine brain endothelium correlate with amyloid–β (Aβ) pathology and cognitive impairment. Moreover, Picalm deficiency diminishes Aβ clearance across the murine blood–brain barrier (BBB) and accelerates Aβ pathology that is reversible by endothelial PICALM re–expression. Using human brain endothelial monolayer, we show that PICALM regulates PICALM/clathrin–dependent internalization of Aβ bound to the low density lipoprotein receptor related protein–1, a key Aβ clearance receptor, and guides Aβ trafficking to Rab5 and Rab11 leading to Aβ endothelial transcytosis and clearance. PICALM levels and Aβ clearance were reduced in AD–derived endothelial monolayers, which was reversible by adenoviral–mediated PICALM transfer. iPSC–derived human endothelial cells carrying the rs3851179 protective allele exhibited higher PICALM levels and enhanced Aβ clearance. Thus, PICALM regulates Aβ BBB transcytosis and clearance that has implications for Aβ brain homeostasis and clearance therapy.

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APOE4-specific Changes in Aβ Accumulation in a New Transgenic Mouse Model of Alzheimer Disease

Youmans

Tai

Nwabuisi-Heath

et al. 2012

Journal of Biological Chemistry

229

313

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Background: APOE genotype effects on A␤ accumulation were determined using new EFAD transgenic mice. Results: In E4FAD mice, compact plaques are greater, total apoE4 is lower, less apoE4 is lipoprotein-associated, and oligomeric A␤ is higher compared with E2FAD/E3FAD, while intraneuronal A␤ is unaffected. Conclusion: APOE4 uniquely effects A␤ accumulation. Significance: These data provide a basis for APOE-induced AD risk.

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