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A spatial long-read approach at near-single-cell resolution reveals developmental regulation of splicing and polyadenylation sites in distinct cortical layers and cell types

Author

Listed:
  • Careen Foord

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Andrey D. Prjibelski

    (University of Helsinki)

  • Wen Hu

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Lieke Michielsen

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell Medicine of Cornell University
    Weill Cornell Medicine)

  • Andrea Vandelli

    (Istituto Italiano di Tecnologia)

  • Oleksandr Narykov

    (Worcester Polytechnic Institute
    Worcester Polytechnic Institute
    Worcester Polytechnic Institute)

  • Brian Evans

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Justine Hsu

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Natan Belchikov

    (Weill Cornell Medicine
    Weill Cornell Medicine
    Weill Cornell Medicine)

  • Julien Jarroux

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Yi He

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • M. Elizabeth Ross

    (Weill Cornell Medicine
    Weill Cornell Medicine)

  • Iman Hajirasouliha

    (Weill Cornell Medicine of Cornell University
    Weill Cornell Medicine)

  • Gian Gaetano Tartaglia

    (Istituto Italiano di Tecnologia)

  • Dmitry Korkin

    (Worcester Polytechnic Institute
    Worcester Polytechnic Institute
    Worcester Polytechnic Institute)

  • Alexandru I. Tomescu

    (University of Helsinki)

  • Hagen U. Tilgner

    (Weill Cornell Medicine
    Weill Cornell Medicine)

Abstract

Genome-wide spatial long-read approaches often lack single-cell resolution and yield limited read lengths. Here, we introduce spatial ISOform sequencing (Spl-ISO-Seq), which reveals exons and polyadenylation sites with near-single-cell resolution. Spl-ISO-Seq selects long cDNAs and doubles to triples read lengths compared to standard preparations. Adding a highly specific software tool (Spl-ISOquant) and comparing human post-mortem pre-puberty (8–11 years) to post-puberty (16–19 years) visual cortex samples, we find that cortex harbors stronger splicing and poly(A)-site regulation than white matter. However, oligodendrocyte regulation is stronger in white matter. Among cortical layers, layer 4 has the most developmentally-regulated splicing changes in excitatory neurons and in poly(A) sites. We also find repeat elements downstream of developmentally-regulated layer 4 exons. Overall, alternative splicing changes are linked to post-synaptic structure and function. These results root developmental splicing changes during puberty in specific layers and cell types. More generally, our technologies enable exciting observations for any complex tissue.

Suggested Citation

  • Careen Foord & Andrey D. Prjibelski & Wen Hu & Lieke Michielsen & Andrea Vandelli & Oleksandr Narykov & Brian Evans & Justine Hsu & Natan Belchikov & Julien Jarroux & Yi He & M. Elizabeth Ross & Iman , 2025. "A spatial long-read approach at near-single-cell resolution reveals developmental regulation of splicing and polyadenylation sites in distinct cortical layers and cell types," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-63301-9
    DOI: 10.1038/s41467-025-63301-9
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