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Neurovascular coupling and CO2 interrogate distinct vascular regulations

Author

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  • Marine Tournissac

    (Vision Institute
    Institute of Psychiatry and Neuroscience of Paris (IPNP), INSERM U1266)

  • Emmanuelle Chaigneau

    (Vision Institute)

  • Sonia Pfister

    (Université de Strasbourg)

  • Ali-Kemal Aydin

    (Vision Institute)

  • Yannick Goulam Houssen

    (Vision Institute)

  • Philip O’Herron

    (Augusta University)

  • Jessica Filosa

    (Augusta University)

  • Mayeul Collot

    (Université de Strasbourg)

  • Anne Joutel

    (Institute of Psychiatry and Neuroscience of Paris (IPNP), INSERM U1266)

  • Serge Charpak

    (Vision Institute)

Abstract

Neurovascular coupling (NVC), which mediates rapid increases in cerebral blood flow in response to neuronal activation, is commonly used to map brain activation or dysfunction. Here we tested the reemerging hypothesis that CO2 generated by neuronal metabolism contributes to NVC. We combined functional ultrasound and two-photon imaging in the mouse barrel cortex to specifically examine the onsets of local changes in vessel diameter, blood flow dynamics, vascular/perivascular/intracellular pH, and intracellular calcium signals along the vascular arbor in response to a short and strong CO2 challenge (10 s, 20%) and whisker stimulation. We report that the brief hypercapnia reversibly acidifies all cells of the arteriole wall and the periarteriolar space 3–4 s prior to the arteriole dilation. During this prolonged lag period, NVC triggered by whisker stimulation is not affected by the acidification of the entire neurovascular unit. As it also persists under condition of continuous inflow of CO2, we conclude that CO2 is not involved in NVC.

Suggested Citation

  • Marine Tournissac & Emmanuelle Chaigneau & Sonia Pfister & Ali-Kemal Aydin & Yannick Goulam Houssen & Philip O’Herron & Jessica Filosa & Mayeul Collot & Anne Joutel & Serge Charpak, 2024. "Neurovascular coupling and CO2 interrogate distinct vascular regulations," Nature Communications, Nature, vol. 15(1), pages 1-12, December.
  • Handle: RePEc:nat:natcom:v:15:y:2024:i:1:d:10.1038_s41467-024-49698-9
    DOI: 10.1038/s41467-024-49698-9
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    References listed on IDEAS

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    1. Xin Rui Lim & Mohammad M. Abd-Alhaseeb & Michael Ippolito & Masayo Koide & Amanda J. Senatore & Curtis Plante & Ashwini Hariharan & Nick Weir & Thomas A. Longden & Kathryn A. Laprade & James M. Staffo, 2024. "Endothelial Piezo1 channel mediates mechano-feedback control of brain blood flow," Nature Communications, Nature, vol. 15(1), pages 1-16, December.
    2. Grant R. Gordon, 2024. "Neurovascular coupling during hypercapnia in cerebral blood flow regulation," Nature Communications, Nature, vol. 15(1), pages 1-3, December.

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