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Barrel cortex plasticity after photothrombotic stroke involves potentiating responses of pre-existing circuits but not functional remapping to new circuits

Author

Listed:
  • William A. Zeiger

    (University of California Los Angeles)

  • Máté Marosi

    (University of California Los Angeles
    University of Texas Medical Branch)

  • Satvir Saggi

    (University of California Los Angeles)

  • Natalie Noble

    (University of California Los Angeles)

  • Isa Samad

    (University of California Los Angeles)

  • Carlos Portera-Cailliau

    (University of California Los Angeles
    University of California Los Angeles)

Abstract

Recovery after stroke is thought to be mediated by adaptive circuit plasticity, whereby surviving neurons assume the roles of those that died. However, definitive longitudinal evidence of neurons changing their response selectivity after stroke is lacking. We sought to directly test whether such functional “remapping” occurs within mouse primary somatosensory cortex after a stroke that destroys the C1 barrel. Using in vivo calcium imaging to longitudinally record sensory-evoked activity under light anesthesia, we did not find any increase in the number of C1 whisker-responsive neurons in the adjacent, spared D3 barrel after stroke. To promote plasticity after stroke, we also plucked all whiskers except C1 (forced use therapy). This led to an increase in the reliability of sensory-evoked responses in C1 whisker-responsive neurons but did not increase the number of C1 whisker-responsive neurons in spared surround barrels over baseline levels. Our results argue against remapping of functionality after barrel cortex stroke, but support a circuit-based mechanism for how rehabilitation may improve recovery.

Suggested Citation

  • William A. Zeiger & Máté Marosi & Satvir Saggi & Natalie Noble & Isa Samad & Carlos Portera-Cailliau, 2021. "Barrel cortex plasticity after photothrombotic stroke involves potentiating responses of pre-existing circuits but not functional remapping to new circuits," Nature Communications, Nature, vol. 12(1), pages 1-14, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-24211-8
    DOI: 10.1038/s41467-021-24211-8
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    Cited by:

    1. Mohamad Motaharinia & Kim Gerrow & Roobina Boghozian & Emily White & Sun-Eui Choi & Kerry R. Delaney & Craig E. Brown, 2021. "Longitudinal functional imaging of VIP interneurons reveals sup-population specific effects of stroke that are rescued with chemogenetic therapy," Nature Communications, Nature, vol. 12(1), pages 1-17, December.

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