Bioenergetic And Inflammatory Systemic Phenotypes In Alzheimer'S Disease Apoe Epsilon 4-Carriers

We examined the impact of an APOE epsilon 4 genotype on Alzheimer's disease (AD) subject platelet and lymphocyte metabolism. Mean platelet mitochondrial cytochrome oxidase Vmax activity was lower in APOE epsilon 4 carriers and lymphocyte Annexin V, a marker of apoptosis, was significantly higher. Proteins that mediate mitophagy and energy sensing were higher in APOE epsilon 4 lymphocytes which could represent compensatory changes and recapitulate phenomena observed in post-mortem AD brains. Analysis of the lipid synthesis pathway found higher AceCSI, ATP CL, and phosphorylated ACC levels in APOE epsilon 4 lymphocytes. Lymphocyte ACC changes were also observed in post-mortem brain tissue. Lymphocyte RNAseq showed lower APOE epsilon 4 carrier sphingolipid Transporter 3 (SPNS3) and integrin Subunit Alpha 1 (ITGA1) expression. RNAseq pathway analysis revealed APOE epsilon 4 alleles activated inflammatory pathways and modulated bioenergetic signaling. These findings support a relationship between APOE genotype and bioenergetic pathways and indicate platelets and lymphocytes from APOE epsilon 4 carriers exist in a state of bioenergetic stress. Neither medication use nor brain-localized AD histopathology can account for these findings, which define an APOE epsilon 4-determined molecular and systemic phenotype that informs AD etiology.