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Neuronal dynamics direct cerebrospinal fluid perfusion and brain clearance

Author

Listed:
  • Li-Feng Jiang-Xie

    (Washington University in St Louis
    Washington University in St Louis)

  • Antoine Drieu

    (Washington University in St Louis
    Washington University in St Louis)

  • Kesshni Bhasiin

    (Washington University in St Louis
    Washington University in St Louis)

  • Daniel Quintero

    (Washington University in St Louis
    Washington University in St Louis)

  • Igor Smirnov

    (Washington University in St Louis
    Washington University in St Louis)

  • Jonathan Kipnis

    (Washington University in St Louis
    Washington University in St Louis)

Abstract

The accumulation of metabolic waste is a leading cause of numerous neurological disorders, yet we still have only limited knowledge of how the brain performs self-cleansing. Here we demonstrate that neural networks synchronize individual action potentials to create large-amplitude, rhythmic and self-perpetuating ionic waves in the interstitial fluid of the brain. These waves are a plausible mechanism to explain the correlated potentiation of the glymphatic flow1,2 through the brain parenchyma. Chemogenetic flattening of these high-energy ionic waves largely impeded cerebrospinal fluid infiltration into and clearance of molecules from the brain parenchyma. Notably, synthesized waves generated through transcranial optogenetic stimulation substantially potentiated cerebrospinal fluid-to-interstitial fluid perfusion. Our study demonstrates that neurons serve as master organizers for brain clearance. This fundamental principle introduces a new theoretical framework for the functioning of macroscopic brain waves.

Suggested Citation

  • Li-Feng Jiang-Xie & Antoine Drieu & Kesshni Bhasiin & Daniel Quintero & Igor Smirnov & Jonathan Kipnis, 2024. "Neuronal dynamics direct cerebrospinal fluid perfusion and brain clearance," Nature, Nature, vol. 627(8002), pages 157-164, March.
  • Handle: RePEc:nat:nature:v:627:y:2024:i:8002:d:10.1038_s41586-024-07108-6
    DOI: 10.1038/s41586-024-07108-6
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    Cited by:

    1. Qian Sun & Sisi Peng & Qiwu Xu & Pia Weikop & Rashad Hussain & Wei Song & Maiken Nedergaard & Fengfei Ding, 2024. "Enhancing glymphatic fluid transport by pan-adrenergic inhibition suppresses epileptogenesis in male mice," Nature Communications, Nature, vol. 15(1), pages 1-17, December.

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