Abstract
Neuroplasticity is maximal during development and declines in adulthood, especially for sensory cortices. On the other hand, the motor and prefrontal cortices retain plasticity throughout the lifespan. This difference has led to a modular view of plasticity in which different brain regions have their own plasticity mechanisms that do not depend or translate on others. Recent evidence shows that visual and motor plasticity share common neural mechanisms (e.g., GABAergic inhibition), indicating a possible link between these different forms of plasticity, however, the interaction between visual and motor plasticity has never been tested directly. Here, we show that when visual and motor plasticity are elicited at the same time in adult humans, visual plasticity is impaired, while motor plasticity is spared. Moreover, simultaneous activation of working memory and visual plasticity also leads to impairment in visual plasticity. These unilateral interactions between visual, working memory, and motor plasticity demonstrate a clear link between these three forms of plasticity. We conclude that local neuroplasticity in separate systems might be regulated globally, to preserve overall homeostasis in the brain.
- binocular rivalry
- homeostatic plasticity
- monocular deprivation
- motor learning
- neuroplasticity
- ocular dominance
Footnotes
The authors declare no competing financial interests.
This work was supported by the European Research Council (ERC) Horizon 2020 Research and Innovation Programme Grant No 948366-HOPLA and by French National Research Agency Grants ANR-19-CE28-0008-PlaStiC and ANR-17-EURE-0017-FrontCog.
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