Abstract
Neurons exhibit selectivity for specific features: a property essential for extracting and encoding relevant information in the environment. This feature-selectivity is thought to be modifiable by experience at the level of the cortex. Here, we demonstrate that selective exposure to a feature during development can instruct the population representation for that feature in the primary visual thalamus. This thalamic plasticity is not simply inherited from the cortex because it is still observed when recordings were performed in the absence of cortical feedback. Moreover, plasticity is blocked in mutant mice that exhibit deficits in retinogeniculate refinement, indicating that alterations in feature-selectivity are a direct result of changes in feedforward connectivity. These experience-dependent changes persist into older ages—highlighting the importance of this developmental period in shaping population coding in the thalamus. Our results show that salient environmental features are hard-wired into thalamic circuits during a discrete developmental window.
Competing Interest Statement
The authors have declared no competing interest.