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Pupil size modulation drives retinal activity in mice and shapes human perception

Author

Listed:
  • Tjasa Lapanja

    (European Molecular Biology Laboratory
    Heidelberg University)

  • Pietro Micheli

    (European Molecular Biology Laboratory
    Collaboration for Joint PhD Degree Between EMBL Sapienza University)

  • Andrés González-Guerra

    (European Molecular Biology Laboratory)

  • Oleksandr Radomskyi

    (European Molecular Biology Laboratory)

  • Gioia Franceschi

    (European Molecular Biology Laboratory
    Belgium VIB)

  • Anna Muraveva

    (European Molecular Biology Laboratory)

  • Alexander Attinger

    (Friedrich Miescher Institute for Biomedical Research)

  • Chiara Nina Roth

    (Friedrich Miescher Institute for Biomedical Research)

  • Matteo Tripodi

    (European Molecular Biology Laboratory)

  • Tom Boissonnet

    (European Molecular Biology Laboratory)

  • Marina Sabbadini

    (European Molecular Biology Laboratory
    Heidelberg University
    European Molecular Biology Laboratory (EMBL))

  • Josephine Jüttner

    (Institute of Molecular and Clinical Ophthalmology Basel)

  • Petri Ala-Laurila

    (Aalto University
    University of Helsinki)

  • Georg Keller

    (Friedrich Miescher Institute for Biomedical Research
    University of Basel)

  • Gabriel Peinado Allina

    (Aalto University)

  • Hiroki Asari

    (European Molecular Biology Laboratory)

  • Santiago B. Rompani

    (European Molecular Biology Laboratory)

Abstract

Retinal adaptation is assisted by the pupil, with pupil contraction and dilation thought to prevent global light changes from triggering neuronal activity in the retina. However, we find that pupillary constriction from increased light, the pupillary light reflex (PLR), can drive strong responses in retinal ganglion cells (RGCs) in vivo in mice. The PLR drives neural activity in all RGC types, and pupil-driven activity is relayed to the visual cortex. Furthermore, the consensual PLR allows one eye to respond to luminance changes presented to the other eye, leading to a binocular response and modulation during low-amplitude luminance changes. To test if pupil-induced activity is consciously perceived, we performed psychophysics on human volunteers, finding a perceptual dimming consistent with PLR-induced responses in mice. Our findings thus uncover that pupillary dynamics can directly induce visual activity that is consciously detectable, suggesting an active role for the pupil in encoding perceived ambient luminance.

Suggested Citation

  • Tjasa Lapanja & Pietro Micheli & Andrés González-Guerra & Oleksandr Radomskyi & Gioia Franceschi & Anna Muraveva & Alexander Attinger & Chiara Nina Roth & Matteo Tripodi & Tom Boissonnet & Marina Sabb, 2025. "Pupil size modulation drives retinal activity in mice and shapes human perception," Nature Communications, Nature, vol. 16(1), pages 1-19, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-62736-4
    DOI: 10.1038/s41467-025-62736-4
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