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A prenatal window for enhancing spatial resolution of cortical barrel maps

Author

Listed:
  • Mar Aníbal-Martínez

    (San Juan de Alicante)

  • Lorenzo Puche-Aroca

    (San Juan de Alicante)

  • Elena Pérez-Montoyo

    (San Juan de Alicante)

  • Gabriele Pumo

    (Fabrikstrasse 24
    University of Basel)

  • M. Pilar Madrigal

    (San Juan de Alicante)

  • Luis M. Rodríguez-Malmierca

    (San Juan de Alicante)

  • Francisco J. Martini

    (San Juan de Alicante)

  • Filippo M. Rijli

    (Fabrikstrasse 24
    University of Basel)

  • Guillermina López-Bendito

    (San Juan de Alicante)

Abstract

Precise mapping of peripheral inputs onto cortical areas is essential for accurate sensory processing. In the mouse primary somatosensory cortex, mystacial whiskers correspond to large, well-defined barrels, while upper lip whiskers form smaller, less distinct barrels. These differences are traditionally attributed to variations in whisker input type and receptor density, but prenatal activity and transcriptional programs also impact somatosensory map development independently of sensory experience. Here, we demonstrate that prenatal ablation of mystacial whiskers leads to a remapping of cortical territories, enhancing the functional and anatomical definition of upper lip whisker barrels. This reorganization occurs without altering peripheral receptor types. Instead, thalamic neurons that receive upper lip inputs adopt a mystacial-like transcriptional profile. Our findings unveil a regulated prenatal mechanism in the thalamus that ensures sufficient cortical barrel size and spatial resolution for sensory processing, irrespective of peripheral receptor type or density, highlighting a critical developmental process in sensory mapping.

Suggested Citation

  • Mar Aníbal-Martínez & Lorenzo Puche-Aroca & Elena Pérez-Montoyo & Gabriele Pumo & M. Pilar Madrigal & Luis M. Rodríguez-Malmierca & Francisco J. Martini & Filippo M. Rijli & Guillermina López-Bendito, 2025. "A prenatal window for enhancing spatial resolution of cortical barrel maps," Nature Communications, Nature, vol. 16(1), pages 1-17, December.
    • Handle: RePEc:nat:natcom:v:16:y:2025:i:1:d:10.1038_s41467-025-57052-w
    DOI: 10.1038/s41467-025-57052-w
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    References listed on IDEAS

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    1. Najate Benamer & Marie Vidal & Maddalena Balia & María Cecilia Angulo, 2020. "Myelination of parvalbumin interneurons shapes the function of cortical sensory inhibitory circuits," Nature Communications, Nature, vol. 11(1), pages 1-14, December.
    2. Gabrielle Pouchelon & Frédéric Gambino & Camilla Bellone & Ludovic Telley & Ilaria Vitali & Christian Lüscher & Anthony Holtmaat & Denis Jabaudon, 2014. "Modality-specific thalamocortical inputs instruct the identity of postsynaptic L4 neurons," Nature, Nature, vol. 511(7510), pages 471-474, July.
    3. Verónica Moreno-Juan & Anton Filipchuk & Noelia Antón-Bolaños & Cecilia Mezzera & Henrik Gezelius & Belen Andrés & Luis Rodríguez-Malmierca & Rafael Susín & Olivier Schaad & Takuji Iwasato & Roland Sc, 2017. "Prenatal thalamic waves regulate cortical area size prior to sensory processing," Nature Communications, Nature, vol. 8(1), pages 1-14, April.
    4. Laura Frangeul & Gabrielle Pouchelon & Ludovic Telley & Sandrine Lefort & Christian Luscher & Denis Jabaudon, 2016. "A cross-modal genetic framework for the development and plasticity of sensory pathways," Nature, Nature, vol. 538(7623), pages 96-98, October.
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