Manipulating critical period closure across different sectors of the primary auditory cortex

Abstract

The neural circuitry of primary auditory cortex is known to have a critical period during which the representation of sound frequency is shaped to represent the external world. De Villers-Sidani and colleagues now show that the end of this critical period is driven by local patterns of activity reflecting environmental stimuli. During early brain development and through 'adult' experience-dependent plasticity, neural circuits are shaped to represent the external world with high fidelity. When raised in a quiet environment, the rat primary auditory cortex (A1) has a well-defined 'critical period', lasting several days, for its representation of sound frequency. The addition of environmental noise extends the critical period duration as a variable function of noise level. It remains unclear whether critical period closure should be regarded as a unified, externally gated event that applies for all of A1 or if it is controlled by progressive, local, activity-driven changes in this cortical area. We found that rearing rats in the presence of a spectrally limited noise band resulted in the closure of the critical period for A1 sectors representing the noise-free spectral bands, whereas the critical period appeared to remain open in noise-exposed sectors, where the cortex was still functionally and physically immature.