Frontiers in Genetics (Nov 2021)

Lysine Acetylation in the Proteome of Renal Tubular Epithelial Cells in Diabetic Nephropathy

  • Jiayi Wan,
  • Jiayi Wan,
  • Jiayi Wan,
  • Jiayi Wan,
  • Mingyang Hu,
  • Mingyang Hu,
  • Mingyang Hu,
  • Mingyang Hu,
  • Ziming Jiang,
  • Ziming Jiang,
  • Ziming Jiang,
  • Ziming Jiang,
  • Dongwei Liu,
  • Dongwei Liu,
  • Dongwei Liu,
  • Dongwei Liu,
  • Shaokang Pan,
  • Shaokang Pan,
  • Shaokang Pan,
  • Shaokang Pan,
  • Sijie Zhou,
  • Sijie Zhou,
  • Sijie Zhou,
  • Sijie Zhou,
  • Zhangsuo Liu,
  • Zhangsuo Liu,
  • Zhangsuo Liu,
  • Zhangsuo Liu

DOI
https://doi.org/10.3389/fgene.2021.767135
Journal volume & issue
Vol. 12

Abstract

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Diabetic nephropathy is considered one of the most common microvascular complications of diabetes and the pathophysiology involves multiple factors. Progressive diabetic nephropathy is believed to be related to the structure and function of the tubular epithelial cells in the kidney. However, the role of lysine acetylation in lesions of the renal tubular epithelial cells arising from hyperglycemia is poorly understood. Consequently, in this study, we cultured mouse renal tubular epithelial cells in vitro under high glucose conditions and analyzed the acetylation levels of proteins by liquid chromatography-high-resolution mass spectrometry. We identified 48 upregulated proteins and downregulated 86 proteins. In addition, we identified 113 sites with higher acetylation levels and 374 sites with lower acetylation levels. Subcellular localization analysis showed that the majority of the acetylated proteins were located in the mitochondria (43.17%), nucleus (28.57%) and cytoplasm (16.19%). Enrichment analysis indicated that these acetylated proteins are primarily associated with oxidative phosphorylation, the citrate cycle (TCA cycle), metabolic pathways and carbon metabolism. In addition, we used the MCODE plug-in and the cytoHubba plug-in in Cytoscape software to analyze the PPI network and displayed the first four most compact MOCDEs and the top 10 hub genes from the differentially expressed proteins between global and acetylated proteomes. Finally, we extracted 37 conserved motifs from 4915 acetylated peptides. Collectively, this comprehensive analysis of the proteome reveals novel insights into the role of lysine acetylation in tubular epithelial cells and may make a valuable contribution towards the identification of the pathological mechanisms of diabetic nephropathy.

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