️ Episode 222: snaR-A hijacks splicing to drive proliferation

In this episode of PaperCast Base by Base, we explore This episode examines how the cancer-associated Pol III transcript snaR-A binds core splicing factors, localizes near nuclear speckles, perturbs U2-dependent splicing to increase intron retention, and promotes cell proliferation linked to poorer patient outcomes

Study Highlights:
Proteomic pull-downs and CLIP analyses reveal snaR-A interactions with RNA chaperones (La, ILF3) and multiple splicing factors, with PAR-CLIP and CLIP-qPCR supporting a direct interaction with the U2 snRNP subunit SF3B2. HCR-RNA-FISH and SON TSA-seq place snaR-A in subnuclear foci adjacent to nuclear speckles and show snaR-A gene clusters are speckle-proximal. Functional genomics show snaR-A overexpression increases intron retention while snaR-A depletion reduces intron retention and enhances splicing of transcripts marked by high U2 occupancy and speckle proximity, and snaR-A overexpression selectively reduces SF3B2 protein levels. Phenotypically, snaR-A depletion lowers proliferation in HEK293T cells, snaR-A gene activity correlates with proliferation markers across primary tumors and predicts worse survival, and rescued splicing increases protein abundance for tumor-suppressive targets such as OGFR.

Conclusion:
snaR-A acts as a nuclear antagonist of U2-dependent splicing near speckles, promoting cell proliferation and providing a non-mutational route to splicing dysregulation in cancer

Music:
Enjoy the music based on this article at the end of the episode.

Reference:
Zhou S, Lizarazo S, Chorghade S, Mouli L, Cheng R, KC R, Kalsotra A, Van Bortle K. Cancer-associated snaR-A noncoding RNA interacts with core splicing machinery and disrupts processing of mRNA subpopulations. Nat Commun. 2025;16:10 460. https://doi.org/10.1038/s41467-025-65448-x

License:
This episode is based on an open-access article published under the Creative Commons Attribution 4.0 International License (CC BY 4.0) – https://creativecommons.org/licenses/by/4.0/

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Keywords: snaR-A, splicing, SF3B2, intron retention, nuclear speckles