4.7 Article

Pairing with Enriched Sound Exposure Restores Auditory Processing Degraded by an Antidepressant

Journal

JOURNAL OF NEUROSCIENCE
Volume 43, Issue 16, Pages 2850-2859

Publisher

SOC NEUROSCIENCE
DOI: 10.1523/JNEUROSCI.2027-22.2023

Keywords

antidepressant; auditory cortex; cortical plasticity; frequency tuning; inhibition

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Antidepressants can have negative effects on auditory processing, worsening psychiatric symptoms. These drugs can affect auditory memory, cortical neuron response, and perineuronal nets. Pairing drug treatment with enriched sound exposure can help alleviate these effects. These findings are important for understanding the impact of antidepressants on hearing and developing new treatment strategies for psychiatric disorders.
Antidepressants, while effective in treating depression and anxiety disorders, also induce deficits in sensory (particularly auditory) processing, which in turn may exacerbate psychiatric symptoms. How antidepressants cause auditory signature deficits remains largely unknown. Here, we found that fluoxetine-treated adult female rats were significantly less accurate when performing a tone-frequency discrimination task compared with age-matched control rats. Their cortical neurons also responded less selectively to sound frequencies. The degraded behavioral and cortical processing was accompanied by decreased cortical perineuronal nets, particularly those wrapped around parvalbumin-expressing inhibitory interneurons. Furthermore, fluoxetine induced critical period-like plasticity in their already mature auditory cortices; therefore, a brief rearing of these drug-treated rats under an enriched acoustic environment renormalized auditory processing degraded by fluoxetine. The altered cortical expression of perineuronal nets was also reversed as a result of enriched sound exposure. These findings suggest that the adverse effects of antidepressants on auditory processing, possibly because of a reduction in intracortical inhibition, can be substantially alleviated by simply pairing drug treatment with passive, enriched sound exposure. They have important implications for understanding the neurobiological basis of antidepressant effects on hearing and for designing novel pharmacological treatment strategies for psychiatric disorders.

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