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The balance between peripheral T-cell reactivity and self-tolerance is achieved during T-cell development in the thymus. During thymic development T-cell sensitivity to self-antigens drives their selection and is dynamically regulated via multiple mechanisms. The microRNA miR-181 has been implicated as a post-transcriptional modulator of T-cell sensitivity due to its suppression of several negative regulators of T-cell receptor (TCR) signalling. By tuning developing thymocytes to be exquisitely sensitive to signals transduced through their TCR, miR-181 has previously been shown to be essential for the agonist selection of invariant natural killer T (iNKT) cells. In this thesis, we extend the knowledge on the developmental control elicited by miR-181 in the thymus to cover mucosal-associated invariant T (MAIT), regulatory T (Treg) and conventional T cells. Using a germline knock-out of mature miR-181a/b-1, we could show that all agonist-selected T cell populations are critically dependant on miR-181a/b-1, noting an absence of MAIT and a reduction of thymic-derived Tregs in miR-181a/b-1-deficient mice. Furthermore, we provided evidence that miR-181 is also required for the negative selection of conventional T cells, with miR-181a/b-1-deficient mice presenting with a near absence of apoptotic markers. Therefore, by heightening the TCR sensitivity to self-antigens, miR-181a/b-1 aids in the detection and subsequent elimination of autoreactive thymocytes. In addition, we characterised the murine primary miR-181a/b-1 transcript, which surprisingly has a transcription start site (TSS) more than 70kB upstream of the mature miRNA sequences. This shall hopefully lead to future research aimed at deciphering the upstream regulatory networks that promote dynamic miR-181a/b-1 expression in developing thymocytes. In summary, we present here a single miRNA subset with broad implications in T-cell development. In disagreement with central dogma that individual miRNAs generally provide weak to moderate modulation over cellular pathways, we showcase the miR-181 family subset, miR-181a/b-1, as an efficient regulator of TCR signalling pathways. Due to the sensitive nature of TCR signalling during thymocyte selection, miR-181a/b-1 elicits gross effects, which are essential for agonist selection, central tolerance and generating a functional self-tolerant peripheral T cell repertoire. We therefore conclude that miR-181a/b-1 is fundamental in T-cell development as a whole.
Post-transcriptional gene regulation through microRNA (miRNA) has emerged as a major control mechanism of multiple biological processes, including development and function of T cells. T cells are vital components of the immune system, with conventional T cells playing a central role in adaptive immunity and unconventional T cells having additional functions reminiscent of both innate and adaptive immunity, such as involvement in stress responses and tissue homeostasis. Unconventional T cells encompass cells expressing semi-invariant T cell receptors (TCRs), such as invariant Natural Killer T (iNKT) and Mucosal-Associated Invariant T (MAIT) cells. Additionally, some T cells with diverse TCR repertoires, including γδT cells, intraepithelial lymphocytes (IEL) and regulatory T (Treg) cells, share some functional and/or developmental features with their semi-invariant unconventional counterparts. Unconventional T cells are particularly sensitive to disruption of miRNA function, both globally and on the individual miRNA level. Here, we review the role of miRNA in the development and function of unconventional T cells from an iNKT-centric point of view. The function of single miRNAs can provide important insights into shared and individual pathways for the formation of different unconventional T cell subsets.