AI Article Synopsis
- Thorndike's law of effect suggests that actions resulting in positive outcomes (reinforcements) are more likely to be repeated, impacting both behavior and neural activity.
- Reinforcement depends on dopamine release from the ventral tegmental area (VTA), guiding animals to adapt their behaviors for more dopamine stimulation.
- Research on mice shows they learn to repeat specific motor patterns that trigger VTA stimulation, gradually enhancing the neural activity associated with those patterns to optimize reinforcement.
Article Abstract
Thorndike's law of effect states that actions that lead to reinforcements tend to be repeated more often. Accordingly, neural activity patterns leading to reinforcement are also reentered more frequently. Reinforcement relies on dopaminergic activity in the ventral tegmental area (VTA), and animals shape their behavior to receive dopaminergic stimulation. Seeking evidence for a neural law of effect, we found that mice learn to reenter more frequently motor cortical activity patterns that trigger optogenetic VTA self-stimulation. Learning was accompanied by gradual shaping of these patterns, with participating neurons progressively increasing and aligning their covariance to that of the target pattern. Motor cortex patterns that lead to phasic dopaminergic VTA activity are progressively reinforced and shaped, suggesting a mechanism by which animals select and shape actions to reliably achieve reinforcement.
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| http://dx.doi.org/10.1126/science.aao6058 | DOI Listing |
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