Lipidomic analysis of isogenic ApoE‐variant iPSC‐derived glia uncovers coupling between inflammatory signaling and lipid metabolism.

Abstract

AbstractBackgroundApoE is the major genetic risk factor for Alzheimer’s disease and the major regulator of brain lipid metabolism. In the brain ApoE is primarily expressed in glia. How different damaging or protective ApoE variants exactly affects glial lipid metabolism, and/or how this correlates with inflammatory signaling is not known.MethodWe generated iPSC‐derived astrocytes and microglia from isogenic induced pluripotent stem cells (iPSC) with ApoE3/3 (reference), ApoE4/4 (increased risk), ApoE2/2 (decreased risk) and ApoEnull/null (control) genotypes. On these cells we performed unbiased lipidomics and transcriptional profiling to measure inflammatory pathways.ResultWe observed strong accumulation of stored lipids in human ApoE4/4, E2/2 and ApoEnull/null glia compared to ApoE3/3 glia. The composition of the exact species of accumulating lipids differed between ApoE4/4, E2/2 and Enull/null glia, and between astrocytes and microglia. At the transcriptional level, lipid accumulation in some genotypes was associated with increased proinflammatory signaling in astrocytes and microglia.ConclusionsApoE genotypes has a major effect on glial lipid metabolism and specific changes in lipid metabolism associate with inflammatory signaling pathways. Using lipid‐targeting interventions we are currently probing a causal relationship between altered lipid metabolism and downstream increases inflammatory signaling