Abstract
DNA methylation is a key epigenetic mechanism that controls T cell differentiation. The ten-eleven translocation (TET) family of methylcytosine dioxygenases converts 5-methylcytosine (5mC) to 5-hydroxymethylcytosine (5hmC) and other oxidized methylcytosines. TET2 mutations have been identified in angioimmunoblastic T cell lymphomas (AITL), which are derived from CD4+ T follicular helper (TFH) cells. CD4+ TFH cells are a T cell subset that provides essential help for the germinal center reaction and class switching. Here we demonstrate that TET2 regulates murine CD4+ TFH differentiation in vivo . At steady-state, mice with a T cell specific deletion of TET2 (TET2cKO) have intact thymic and peripheral T cell populations. Following acute viral infection with LCMV-Armstrong, TET2 loss promotes CD4+ TFH cell expansion. Examination of the Peyer's patches (a site of TFH differentiation in response to gut microbes) of wild-type and TET2cKO mice demonstrate an increase in the absolute number of the CD4+ TFH (CXCR5+PD1+) population in TET2cKO mice. Furthermore, there is an increase in the frequency and absolute number of germinal center B cells (characterized by PNA+GL7+ B cells) and an increase in IgA+ B cells in the Peyer's patches of TET2cKO mice compared to wild-type mice. Ongoing studies are examining the mechanism by which TET2 controls CD4+ TFH expansion. Our data indicate that TET2 is an important regulator of CD4+ TFH cells. Understanding the role of TET2 in normal CD4+ TFH differentiation and its contribution to T cell lymphomagenesis will lead to important insights into the epigenetic and molecular mechanisms underlying AITL pathogenesis
No relevant conflicts of interest to declare.
Author notes
Asterisk with author names denotes non-ASH members.
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