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Article type: Research Article
Authors: Keeney, Jeriel Thomas-Richarda | Ibrahimi, Shahera | Zhao, Liqina; b; *
Affiliations: [a] Department of Pharmacology and Toxicology, School of Pharmacy, University of Kansas, Lawrence, KS, USA | [b] Neuroscience Graduate Program, University of Kansas, Lawrence, KS, USA
Correspondence: [*] Correspondence to: Liqin Zhao, PhD, Department of Pharmacology and Toxicology, School of Pharmacy, University of Kansas, Lawrence, KS 66045, USA. Tel.: +1 785 864 6291; [email protected]
Abstract: Three major genetic isoforms of apolipoprotein E (ApoE), ApoE2, ApoE3, and ApoE4, exist in humans and lead to differences in susceptibility to Alzheimer’s disease (AD). This study investigated the impact of human ApoE isoforms on brain metabolic pathways involved in glucose utilization and amyloid-β (Aβ) degradation, two major areas that are significantly perturbed in preclinical AD. Hippocampal RNA samples from middle-aged female mice with targeted human ApoE2, ApoE3, and ApoE4 gene replacement were comparatively analyzed with a qRT-PCR custom array for the expression of 85 genes involved in insulin/insulin-like growth factor (Igf) signaling. Consistent with its protective role against AD, ApoE2 brain exhibited the most metabolically robust profile among the three ApoE genotypes. When compared to ApoE2 brain, both ApoE3 and ApoE4 brains exhibited markedly reduced levels of Igf1, insulin receptor substrates (Irs), and facilitated glucose transporter 4 (Glut4), indicating reduced glucose uptake. Additionally, ApoE4 brain exhibited significantly decreased Pparg and insulin-degrading enzyme (Ide), indicating further compromised glucose metabolism and Aβ dysregulation associated with ApoE4. Protein analysis showed significantly decreased Igf1, Irs, and Glut4 in ApoE3 brain, and Igf1, Irs, Glut4, Pparg, and Ide in ApoE4 brain compared to ApoE2 brain. These data provide the first documented evidence that human ApoE isoforms differentially affect brain insulin/Igf signaling and downstream glucose and amyloid metabolic pathways, illustrating a potential mechanism for their differential risk in AD. A therapeutic strategy that enhances brain insulin/Igf1 signaling activity to a more robust ApoE2-like phenotype favoring both energy production and amyloid homeostasis holds promise for AD prevention and early intervention.
Keywords: Alzheimer’s disease, apolipoprotein E2, apolipoprotein E3, apolipoprotein E4, early intervention, glucose metabolism, glucose transporter 4, insulin-degrading enzyme, insulin-like growth factor 1, peroxisome proliferator-activated receptor gamma
DOI: 10.3233/JAD-150348
Journal: Journal of Alzheimer's Disease, vol. 48, no. 2, pp. 411-424, 2015
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