ApoE Lipidation State Directs Immunometabolic Reprogramming of Human Microglia

  1. Tsion G. Shiferaw
  2. Snigdha Sarkar
  3. Katelyn M. Baker
  4. Rowan S. Wooldridge
  5. Hannah M. Binfet
  6. Victoria N. Prozapas
  7. Chinemerum P. Ogbu
  8. Athena A. Schepmoes
  9. Isaac K. Attah
  10. Christy S. Niemeyer
  11. Kayla G. Sprenger
  12. James E. Hassell
  13. Robert H. Eckel
  14. John T. Melchior
  15. Kimberley D. Bruce
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Abstract

Introduction

ApoE4 is the strongest genetic risk factor for Alzheimer’s disease (AD). Emerging evidence suggests that ApoE4 increases AD risk by disrupting microglial metabolism and function. However, whether ApoE lipidation state contributes to microglial dysfunction remains poorly understood.

Methods

Human microglia were treated with lipid-free or lipid-bound ApoE3 or ApoE4. Label-free live-cell holotomography and global proteomics were used to assess isoform- and lipidation-specific effects on lipid droplet dynamics, mitochondrial morphology, and microglial phenotype.

Results

ApoE4 treatment resulted in fewer but enlarged lipid droplets and increased mitochondrial fragmentation compared to ApoE3, effects that were enhanced by lipid-bound ApoE4. Proteomic analyses revealed a strong type I interferon response in cells exposed to lipid-free ApoE, which was exacerbated by lipid-free ApoE4.

Discussion

These findings indicate that lipid-bound ApoE4 drives metabolic reprogramming, whereas lipid-free ApoE4 promotes inflammatory signaling, identifying ApoE lipidation as a critical modifier of ApoE4-associated AD risk.

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  1. Version published to 10.64898/2026.05.04.722733 on bioRxiv