Article Synopsis
- The study examines how patterns of neuron activation in the mouse visual cortex change over time during sensory experiences and reactivations.
- Researchers found that reactivations that occur shortly after a visual stimulus can predict how these sensory representations will shift both within a day and over multiple days.
- These findings suggest that reactivations of neuronal activity may play a significant role in modifying and refining sensory responses, improving the brain's ability to distinguish between different stimuli.
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Article Abstract
Many theories of offline memory consolidation posit that the pattern of neurons activated during a salient sensory experience will be faithfully reactivated, thereby stabilizing the pattern. However, sensory-evoked patterns are not stable but, instead, drift across repeated experiences. Here, to investigate the relationship between reactivations and the drift of sensory representations, we imaged the calcium activity of thousands of excitatory neurons in the mouse lateral visual cortex. During the minute after a visual stimulus, we observed transient, stimulus-specific reactivations, often coupled with hippocampal sharp-wave ripples. Stimulus-specific reactivations were abolished by local cortical silencing during the preceding stimulus. Reactivations early in a session systematically differed from the pattern evoked by the previous stimulus-they were more similar to future stimulus response patterns, thereby predicting both within-day and across-day representational drift. In particular, neurons that participated proportionally more or less in early stimulus reactivations than in stimulus response patterns gradually increased or decreased their future stimulus responses, respectively. Indeed, we could accurately predict future changes in stimulus responses and the separation of responses to distinct stimuli using only the rate and content of reactivations. Thus, reactivations may contribute to a gradual drift and separation in sensory cortical response patterns, thereby enhancing sensory discrimination.
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| http://www.ncbi.nlm.nih.gov/pmc/articles/PMC11014741 | PMC |
| http://dx.doi.org/10.1038/s41586-023-06810-1 | DOI Listing |
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