Browsing by Author "Peltier, Daniel C."

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    LNCing RNA to Imm
    (Elsevier, 2022) Peltier, Daniel C.; Roberts, Alexis; Reddy, Pavan; Pediatrics, School of Medicine
    Despite an ever-increasing appreciation of how protein-coding genes shape immune responses, the molecular underpinnings of immune regulation remain incompletely understood. This incomplete picture impedes the development of more precise therapeutics and diagnostics for immune-mediated diseases. Long noncoding RNAs (lncRNAs) are versatile cell- and context-specific regulators of gene expression and cellular function. The number of lncRNA genes rivals that of protein-coding genes; however, comparatively little is known about their function. Even though the functions of most lncRNA genes are unknown, multiple lncRNAs have recently emerged as important immune regulators. Therefore, further unlocking the role of lncRNAs in the mammalian immune system coupled with their tissue-specific expression might lead to more precise therapeutics and diagnostics for immune disorders in general.
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    Noncanonical microprotein regulation of immunity
    (Elsevier, 2024-09) Nichols, Cydney; Do-Thi, Van Anh; Peltier, Daniel C.; Pediatrics, School of Medicine
    The immune system is highly regulated but, when dysregulated, suboptimal protective or overly robust immune responses can lead to immune-mediated disorders. The genetic and molecular mechanisms of immune regulation are incompletely understood, impeding the development of more precise diagnostics and therapeutics for immune-mediated disorders. Recently, thousands of previously unrecognized noncanonical microprotein genes encoded by small open reading frames have been identified. Many of these microproteins perform critical functions, often in a cell- and context-specific manner. Several microproteins are now known to regulate immunity; however, the vast majority are uncharacterized. Therefore, illuminating what is often referred to as the “dark proteome,” may present opportunities to tune immune responses more precisely. Here, we review noncanonical microprotein biology, highlight recently discovered examples regulating immunity, and discuss the potential and challenges of modulating dysregulated immune responses by targeting microproteins.