Regulation and activity of Runx2 in CD8⁺ T cells responding to infection promotes long-term survival

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Presentation Time: 11:30 AM - 12:45 PM
Poster Board Number: B817
Abstract ID: 5952

Presenting Author:
Mary J Michaels-Foster , Graduate Student at Univ. of Colorado Anschutz Med. Campus

Abstract:

Constitutive expression of Runx family proteins in CD8 T cells and maintenance of accessibility surrounding Runx motifs in regulatory regions of lineage-specific loci suggest that they may play a role in establishing and maintaining the epigenetic state of CD8 T cells. Additionally, Runx proteins possess a highly homologous DNA binding domain, leading not only to redundancies, but also potential competition between Runx proteins for the same genomic binding sites. While Runx1 and Runx3 have well known roles in the development of CD8 T cells, the function of Runx2 is not well established. To further explore the function of Runx2, our lab utilizes a model of retroviral overexpression and CRISPR knockout of Runx proteins in OT-1 CD8 T cells. Adoptive transfer of Runx2 overexpressing or knockout cells followed by ovalbumin-expressing Listeria monocytogenes (LmOva) infection suggests that Runx2 activity is important for the expression and maintenance of genes needed for long-term survival and function, such as Tcf7 and Il7ra. Data analyzed from the literature and chromatin analyses from our lab suggest that Runx proteins may compete for binding sites and drive opposing transcriptional and epigenetic profiles in CD8 T cells after infection. Preliminary data also give insight into the mechanisms controlling Runx2 expression, suggesting that the signals received during priming may affect the balance of Runx protein activity.