ApoE4-carrying Human Astrocytes Oversupply Cholesterol into Neurons and Promote Aβ Generation

Abstract Background: The onset of Alzheimer’s disease (AD) typically occurs later in life. Recent genetic analysis of patients and unaffected individuals revealed multiple genetic variants associated with late-onset AD. One of the strongest genetic risk factors for AD is 𝜀4 allele of APOE encoding apolipoprotein (ApoE), which is predominantly expressed in astrocytes. The role and mechanism of ApoE in initiating AD-associated pathologies, including amyloid-β (Aβ) accumulation and neurodegeneration in neurons, remains to be elucidated. Methods: Human induced pluripotent stem cells (hiPSCs) from healthy individuals and isogenic cells in which the ApoE 𝜀3 allele was replaced with an 𝜀4 allele were selected to generate human neurons and astrocytes. To investigate the effect of astrocytic ApoE4 on neuronal Aβ production, iPSC-derived neurons carrying the ApoE 𝜀3 allele were cultured in conditioned media from healthy iPSC-derived astrocytes (ApoE3/E4 heterozygote) for five weeks. Then, the media were replaced with either ApoE3 or ApoE4 astrocyte conditioned media (ACM), cultured for four days, and neuronal amyloid precursor protein (APP) expression and Aβ production were measured. To determine potential mechanisms for upregulation of APP in neurons by ApoE4 ACM, changes in plasma membrane lipid rafts were investigated by staining for cholera toxin B. Methyl-b-cyclodextrin (MβCD) was applied to deplete cholesterol in ApoE4 ACM. Results: Secretory factors in conditioned media from hiPSC-derived astrocytes carrying APOE4 significantly increased the levels of APP and Aβ secretion in hiPSC-derived neurons. Increasing cholesterol levels in culture media mimicked the effects of ApoE4 ACM by inducing the formation of lipid rafts that potentially provide a physical platform for APP localization on the membrane. We further found that reducing cholesterol levels in ApoE4 ACM with MβCD abolished its effects on neuronal lipid raft expansion and Aβ generation. Conclusions: Our study suggests that ApoE4 astrocytes contribute to amyloidosis by the expansion of lipid rafts and facilitate neuronal Ab production through oversupply of cholesterol.