Splicing-aware scRNA-Seq resolution reveals execution-ready programs in effector Tregs

Lukyanov, Daniil K; Egorov, Evgeniy S; Kriukova, Valeriia V; Syrko, Denis; Kotliar, Victor V; Ladell, Kristin; Price, David A; Franke, Andre; Chudakov, Dmitry M

Splicing-aware scRNA-Seq resolution reveals execution-ready programs in effector Tregs

Daniil K Lukyanov, Evgeniy S Egorov, Valeriia V Kriukova, Denis Syrko, Victor V Kotliar, Kristin Ladell, David A Price, Andre Franke and Dmitry M Chudakov

PLOS Computational Biology, 2025, vol. 21, issue 11, 1-17

Abstract: Single-cell RNA sequencing (scRNA-Seq) provides valuable insights into cell biology. However, current scRNA-Seq analytic approaches do not distinguish between spliced and unspliced mRNA at the level of dimensionality reduction. RNA velocity paradigms suggest that the presence of unspliced mRNA reflects transitional cell states, informative for studies of dynamic processes such as embryogenesis or tissue regeneration. Alternatively, stable cell subsets may also maintain translationally repressed spliced mRNA in processing bodies (P-bodies) and/or unspliced mRNA reservoirs for prompt initiation of transcription-independent expression. To enable splicing-aware analysis of scRNA-Seq data, we developed a method called SANSARA (Splicing-Aware scrNa-Seq AppRoAch). We employed SANSARA to characterize peripheral blood regulatory T cell (Treg) subsets, revealing a complementary interplay between the FoxP3 and Helios master transcription factors and upregulation of functionally relevant IL10RA, LGALS3, FCRL3, CD38, ITGAL, and LEF1 spliced gene forms in effector Tregs. Among Th1 and cytotoxic CD4+ T cell subsets, SANSARA also revealed substantial splicing heterogeneity across subset-specific genes. SANSARA is straightforward to implement in current data analysis pipelines and opens new dimensions for scRNA-Seq-based discoveries.Author summary: Single-cell transcriptomics classifies cells by the patterns of genes they express. Most methods, however, treat every RNA message in the same way, even though cells produce RNA in two stages: unspliced (nascent) and spliced (mature and ready to make protein). To provide additional resolution, we developed SANSARA, a splicing-aware analysis that uses this extra layer of information to sharpen how we read cellular states.

Date: 2025
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Persistent link: https://EconPapers.repec.org/RePEc:plo:pcbi00:1013682

DOI: 10.1371/journal.pcbi.1013682

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