Journal of Lipid Research (Jan 2018)

Kinetics of plasma apolipoprotein E isoforms by LC-MS/MS: a pilot study

  • Valentin Blanchard,
  • Stéphane Ramin-Mangata,
  • Stéphanie Billon-Crossouard,
  • Audrey Aguesse,
  • Manon Durand,
  • Kevin Chemello,
  • Brice Nativel,
  • Laurent Flet,
  • Maud Chétiveaux,
  • David Jacobi,
  • Jean-Marie Bard,
  • Khadija Ouguerram,
  • Gilles Lambert,
  • Michel Krempf,
  • Mikaël Croyal

Journal volume & issue
Vol. 59, no. 5
pp. 892 – 900

Abstract

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Human apoE exhibits three major isoforms (apoE2, apoE3, and apoE4) corresponding to polymorphism in the APOE gene. Total plasma apoE concentrations are closely related to these isoforms, but the underlying mechanisms are unknown. We aimed to describe the kinetics of apoE individual isoforms to explore the mechanisms for variable total apoE plasma concentrations. We used LC-MS/MS to discriminate between isoforms by identifying specific peptide sequences in subjects (three E2/E3, three E3/E3, and three E3/E4 phenotypes) who received a primed constant infusion of 2H3-leucine for 14 h. apoE concentrations and leucine enrichments were measured hourly in plasma. Concentrations of apoE2 were higher than apoE3, and concentrations of apoE4 were lower than apoE3. There was no difference between apoE3 and apoE4 catabolic rates and between apoE2 and apoE3 production rates (PRs), but apoE2 catabolic rates and apoE4 PRs were lower. The mechanisms leading to the difference in total plasma apoE concentrations are therefore related to contrasted kinetics of the isoforms. Production or catabolic rates are differently affected according to the specific isoforms. On these grounds, studies on the regulation of the involved biochemical pathways and the impact of pathological environments are now warranted.

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