What's in a name: the multifaceted function of DNA- and RNA-binding proteins in T cell responses.

Cellular differentiation allows cells to transition between different functional states and adapt to various environmental cues. The diversity and plasticity of this process is beautifully exemplified by T cells responding to pathogens, which undergo highly specialized differentiation tailored to the ongoing infection. Such antigen-induced T cell differentiation is regulated at the transcriptional level by DNA-binding proteins and at the post-transcriptional level by RNA-binding proteins. Although traditionally defined as separate protein classes, a growing body of evidence indicates an overlap between these two groups of proteins, collectively coined DNA/RNA-binding proteins (DRBPs). In this review, we describe how DRBPs might bind both DNA and RNA, discuss the putative functional relevance of this dual binding, and provide an exploratory analysis into characteristics that are associated with DRBPs. To exemplify the significance of DRBPs in T cell biology, we detail the activity of several established and putative DRBPs during the T cell response. Finally, we highlight several methodologies that allow untangling of the distinct functionalities of DRBPs at the DNA and RNA level, including key considerations to take into account when applying such methods.