Autoregulated splicing of
            <i>TRA2</i>
            β programs T cell fate in response to antigen-receptor stimulation

Karginov, Timofey A.; Ménoret, Antoine; Leclair, Nathan K.; Harrison, Andrew G.; Chandiran, Karthik; Suarez-Ramirez, Jenny E.; Yurieva, Marina; Karlinsey, Keaton; Wang, Penghua; O’Neill, Rachel J.; Murphy, Patrick A.; Adler, Adam J.; Cauley, Linda S.; Anczuków, Olga; Zhou, Beiyan; Vella, Anthony T.

doi:10.1126/science.adj1979

Science

2024

DOI: 10.1126/science.adj1979

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Autoregulated splicing of TRA2 β programs T cell fate in response to antigen-receptor stimulation

Timofey A. Karginov,

Antoine Ménoret,

Nathan K. Leclair

et al.

Abstract: T cell receptor (TCR) sensitivity to peptide–major histocompatibility complex (MHC) dictates T cell fate. Canonical models of TCR sensitivity cannot be fully explained by transcriptional regulation. In this work, we identify a posttranscriptional regulatory mechanism of TCR sensitivity that guides alternative splicing of TCR signaling transcripts through an evolutionarily ultraconserved poison exon (PE) in the RNA-binding protein (RBP) TRA2β in mouse and human. TRA2 β - … Show more

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2025

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An ultra-conserved poison exon in the Tra2b gene encoding a splicing activator is essential for male fertility and meiotic cell division

Dalgliesh,

Aldalaqan,

Atallah

et al. 2025

EMBO J

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The cellular concentrations of splicing factors (SFs) are critical for controlling alternative splicing. Most serine and arginine-enriched (SR) protein SFs regulate their own concentration via a homeostatic feedback mechanism that involves regulation of inclusion of non-coding ‘poison exons’ (PEs) that target transcripts for nonsense-mediated decay. The importance of SR protein PE splicing during animal development is largely unknown despite PE ultra-conservation across animal genomes. To address this, we used mouse genetics to disrupt an ultra-conserved PE in the Tra2b gene encoding the SR protein Tra2β. Focussing on germ cell development, we found that Tra2b PE deletion causes azoospermia due to catastrophic cell death during meiotic prophase. Failure to proceed through meiosis was associated with increased Tra2b expression sufficient to drive aberrant Tra2β protein hyper-responsive splice patterns. Although critical for meiotic prophase, Tra2b PE deletion spared earlier mitotically active germ cells, even though these still required Tra2b gene function. Our data indicate that PE splicing control prevents the accumulation of toxic levels of Tra2β protein that are incompatible with meiotic prophase. This unexpected connection with male fertility helps explain Tra2b PE ultra-conservation and indicates the importance of evaluating PE function in animal models.

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An ultra-conserved poison exon in the Tra2b gene encoding a splicing activator is essential for male fertility and meiotic cell division

Dalgliesh,

Aldalaqan,

Atallah

et al. 2025

EMBO J

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show abstract

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Autoregulated splicing of TRA2 β programs T cell fate in response to antigen-receptor stimulation

Cited by 1 publication

References 61 publications

An ultra-conserved poison exon in the Tra2b gene encoding a splicing activator is essential for male fertility and meiotic cell division

An ultra-conserved poison exon in the Tra2b gene encoding a splicing activator is essential for male fertility and meiotic cell division

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