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Electronegative LDL Promotes Inflammation and Triglyceride Accumulation in Macrophages.

Núria PuigLara MontolioPol Camps-RenomLaia NavarraVictoria CampuzanoElena Jiménez-XarriéJosé Luis Sanchez-QuesadaSonia Benitez
Published in: Cells (2020)
Electronegative low-density lipoprotein (LDL) (LDL(-)), a modified LDL that is present in blood and exerts atherogenic effects on endothelial cells and monocytes. This study aimed to determine the action of LDL(-) on monocytes differentiated into macrophages. LDL(-) and in vitro-modified LDLs (oxidized, aggregated, and acetylated) were added to macrophages derived from THP1 monocytes over-expressing CD14 (THP1-CD14). Then, cytokine release, cell differentiation, lipid accumulation, and gene expression were measured by ELISA, flow cytometry, thin-layer chromatography, and real-time PCR, respectively. LDL(-) induced more cytokine release in THP1-CD14 macrophages than other modified LDLs. LDL(-) also promoted morphological changes ascribed to differentiated macrophages. The addition of high-density lipoprotein (HDL) and anti-TLR4 counteracted these effects. LDL(-) was highly internalized by macrophages, and it was the major inductor of intracellular lipid accumulation in triglyceride-enriched lipid droplets. In contrast to inflammation, the addition of anti-TLR4 had no effect on lipid accumulation, thus suggesting an uptake pathway alternative to TLR4. In this regard, LDL(-) upregulated the expression of the scavenger receptors CD36 and LOX-1, as well as several genes involved in triglyceride (TG) accumulation. The importance and novelty of the current study is that LDL(-), a physiologically modified LDL, exerted atherogenic effects in macrophages by promoting differentiation, inflammation, and triglyceride-enriched lipid droplets formation in THP1-CD14 macrophages, probably through different receptors.
Keyphrases
  • low density lipoprotein
  • gene expression
  • oxidative stress
  • endothelial cells
  • immune response
  • peripheral blood
  • dna methylation
  • fatty acid
  • binding protein
  • high speed
  • diabetic rats
  • monoclonal antibody
  • stress induced