Abstract
Human Endogenous Retroviruses (HERVs) constitute up to 8% of the human genome and have been emerging as important modulators of the immune system, being associated with cancer, autoimmunity and infectious diseases. Here, we investigated the expression of three HERV families in the human thymus. HERV-K, -W, and -R envelope (env) and HERV-Kgagtranscriptional levels were quantified in the main thymocyte subsets, thymic epithelial cells (TECs), B cells and myeloid populations, and Env protein expression was studied in thymic tissue. We found that HERV mRNA decreased with T cell development, which was in agreement with the identification of HERV-K Env protein in CD3 negative cortical cells. These results suggest a distinct regulation of HERV expression along T cell development, prompting us to evaluate the interplay with host restriction factors and potential underlying pathways. The transcriptional levels of some HERVs were found to positively correlate with the expression of the host restriction factors APOBEC3G and SLFN11, and, conversely, a negative correlation was found with SAMHD1. Moreover, IFN-α and IFN-γ induced the upregulation of HERV-Kenvandgagin purified CD4 single-positive thymocytes. Additionally, we found high levels of HERV mRNAs in TECs. Overall, our data support a tight regulation of HERV expression during human T cell development, with possible implications for the process of T cell selection.
Highlights
The thymus is the specialized primary lymphoid organ that supports the development of T cells
All human endogenous retroviruses (HERVs) genes analyzed were expressed in all sorted subsets, confirming that they are transcriptionally active during T cell development (Figure 1)
We show here that the expression of HERV-K, -W, and –R decrease along T cell development in the human thymus
Summary
The thymus is the specialized primary lymphoid organ that supports the development of T cells This is a tightly controlled process allowing the generation of cells featuring a diverse receptor repertoire and potentially able to respond to any antigen with controlled auto-reactivity [1]. It relies on proper antigen presentation through many layers of regulation involving several cell types and proliferative/survival pathways [2, 3]. Perturbations in those processes impact T cell homeostasis and favor autoimmunity [4]. The association of HERV expression with the development of autoimmune diseases has been suggested to be linked to T cell selection in the thymus [8, 15,16,17], but there are no HERVs and Human Thymus detailed studies on HERV expression throughout human thymocyte development as well as on thymic stromal cells
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