BMC Genomics (Nov 2011)

Human native lipoprotein-induced <it>de novo </it>DNA methylation is associated with repression of inflammatory genes in THP-1 macrophages

  • Rangel-Salazar Rubén,
  • Wickström-Lindholm Marie,
  • Aguilar-Salinas Carlos A,
  • Alvarado-Caudillo Yolanda,
  • Døssing Kristina BV,
  • Esteller Manel,
  • Labourier Emmanuel,
  • Lund Gertrud,
  • Nielsen Finn C,
  • Rodríguez-Ríos Dalia,
  • Solís-Martínez Martha O,
  • Wrobel Katarzyna,
  • Wrobel Kazimierz,
  • Zaina Silvio

DOI
https://doi.org/10.1186/1471-2164-12-582
Journal volume & issue
Vol. 12, no. 1
p. 582

Abstract

Read online

Abstract Background We previously showed that a VLDL- and LDL-rich mix of human native lipoproteins induces a set of repressive epigenetic marks, i.e. de novo DNA methylation, histone 4 hypoacetylation and histone 4 lysine 20 (H4K20) hypermethylation in THP-1 macrophages. Here, we: 1) ask what gene expression changes accompany these epigenetic responses; 2) test the involvement of candidate factors mediating the latter. We exploited genome expression arrays to identify target genes for lipoprotein-induced silencing, in addition to RNAi and expression studies to test the involvement of candidate mediating factors. The study was conducted in human THP-1 macrophages. Results Native lipoprotein-induced de novo DNA methylation was associated with a general repression of various critical genes for macrophage function, including pro-inflammatory genes. Lipoproteins showed differential effects on epigenetic marks, as de novo DNA methylation was induced by VLDL and to a lesser extent by LDL, but not by HDL, and VLDL induced H4K20 hypermethylation, while HDL caused H4 deacetylation. The analysis of candidate factors mediating VLDL-induced DNA hypermethylation revealed that this response was: 1) surprisingly, mediated exclusively by the canonical maintenance DNA methyltransferase DNMT1, and 2) independent of the Dicer/micro-RNA pathway. Conclusions Our work provides novel insights into epigenetic gene regulation by native lipoproteins. Furthermore, we provide an example of DNMT1 acting as a de novo DNA methyltransferase independently of canonical de novo enzymes, and show proof of principle that de novo DNA methylation can occur independently of a functional Dicer/micro-RNA pathway in mammals.