Levels of epigenetic regulators TET2 and DNMT1 correlate with virus-stimulated pDC differentiation from IFN-α producing cells to antigen presenting cells

Abstract

Abstract Plasmacytoid dendritic cells (pDC) are potent producers of IFN-α in response to DNA and RNA viruses and subsequently mature into antigen presenting cells. We investigated the role of DNA methyltransferase 1 (DNMT1) and Ten-eleven translocation methyl-cytosine dioxygenase 2 (TET2), which are generally known as gene silencers and activators, respectively, in pDC activation. PBMC from healthy donors were stimulated with Herpes Simplex Virus (HSV) or Influenza-A virus (IAV) for 6- and 24h. PBMC were surface-stained for pDC markers CD123, HLA-DR and CD11C and co-stimulatory markers CD80 and CD86, then intracellularly for DNMT1, TET2 and IFN-α, and acquired by flow cytometry. mRNA expression of DNMT1 in purified pDC was determined by qRT-PCR. At 6h, DNMT1 protein was expressed at equivalent levels in pDC with and without stimulation and in IFN-α+ and IFN-α-pDC, and in unstimulated controls. In contrast, TET2 proteins were elevated in IFN-α+ but not IFN-α-pDC and controls at 6h. At 24h, DNMT1 increased while TET2 was reduced in stimulated pDC, correlating with high IFN-α levels at 6h and low levels at 24h. There was no change in DNMT1 gene expression in virus-stimulated vs. unstimulated controls. CD80 and CD86 were elevated at 24h compared to 6h in stimulated pDC, confirming pDC differentiation from IFN-α producing to antigen presenting cells. At the point of pDC differentiation, TET2 levels were decreased and DNMT1 increased. These results suggest that TET2 is demethylating and causing activation of genes associated with pDC IFN-α production, while DNMT1 methylates and silences genes in this pathway. This results in an initial induction of TET2 and IFN-α production followed by upregulation of co-stimulatory markers, DNMT1 and loss of IFN-α. Supported by 1. AAI trainee fellowship Careers in Immunology Fellowship Program AAI EIN #: 52-2317193 2. R01Al106125