Lipids in Health and Disease (Jun 2023)

Proteomic and functional analysis of HDL subclasses in humans and rats: a proof-of-concept study

  • Canxia Huang,
  • Jie Zhang,
  • Jingjing Huang,
  • Hongwei Li,
  • Kexin Wen,
  • Jinlan Bao,
  • Xiaoying Wu,
  • Runlu Sun,
  • Ayiguli Abudukeremu,
  • Yue Wang,
  • Zhijian He,
  • Qiaofei Chen,
  • Xinyi Huang,
  • Hong Wang,
  • Yuling Zhang

DOI
https://doi.org/10.1186/s12944-023-01829-9
Journal volume & issue
Vol. 22, no. 1
pp. 1 – 19

Abstract

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Abstract Background The previous study investigated whether the functions of small, medium, and large high density lipoprotein (S/M/L-HDL) are correlated with protein changes in mice. Herein, the proteomic and functional analyses of high density lipoprotein (HDL) subclasses were performed in humans and rats. Methods After purifying S/M/L-HDL subclasses from healthy humans (n = 6) and rats (n = 3) using fast protein liquid chromatography (FPLC) with calcium silica hydrate (CSH) resin, the proteomic analysis by mass spectrometry was conducted, as well as the capacities of cholesterol efflux and antioxidation was measured. Results Of the 120 and 106 HDL proteins identified, 85 and 68 proteins were significantly changed in concentration among the S/M/L-HDL subclasses in humans and rats, respectively. Interestingly, it was found that the relatively abundant proteins in the small HDL (S-HDL) and large HDL (L-HDL) subclasses did not overlap, both in humans and in rats. Next, by searching for the biological functions of the relatively abundant proteins in the HDL subclasses via Gene Ontology, it was displayed that the relatively abundant proteins involved in lipid metabolism and antioxidation were enriched more in the medium HDL (M-HDL) subclass than in the S/L-HDL subclasses in humans, whereas in rats, the relatively abundant proteins associated with lipid metabolism and anti-oxidation were enriched in M/L-HDL and S/M-HDL, respectively. Finally, it was confirmed that M-HDL and L-HDL had the highest cholesterol efflux capacity among the three HDL subclasses in humans and rats, respectively; moreover, M-HDL exhibited higher antioxidative capacity than S-HDL in both humans and rats. Conclusions The S-HDL and L-HDL subclasses are likely to have different proteomic components during HDL maturation, and results from the proteomics-based comparison of the HDL subclasses may explain the associated differences in function.

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