Cortical determinants of loudness perception and auditory hypersensitivity.
Kameron K ClaytonMatthew McGillBshara AwwadKamryn S StecykCaroline KremerDesislava SkerlevaDivya P NarayananJennifer ZhuKenneth E HancockSharon G KujawaElliott Davin KozinDaniel B PolleyPublished in: bioRxiv : the preprint server for biology (2024)
Parvalbumin-expressing inhibitory neurons (PVNs) stabilize cortical network activity, generate gamma rhythms, and regulate experience-dependent plasticity. Here, we observed that activation or inactivation of PVNs functioned like a volume knob in the mouse auditory cortex (ACtx), turning neural and behavioral classification of sound level up or down over a 20dB range. PVN loudness adjustments were "sticky", such that a single bout of 40Hz PVN stimulation sustainably suppressed ACtx sound responsiveness, potentiated feedforward inhibition, and behaviorally desensitized mice to loudness. Sensory sensitivity is a cardinal feature of autism, aging, and peripheral neuropathy, prompting us to ask whether PVN stimulation can persistently desensitize mice with ACtx hyperactivity, PVN hypofunction, and loudness hypersensitivity triggered by cochlear sensorineural damage. We found that a single 16-minute bout of 40Hz PVN stimulation session restored normal loudness perception for one week, showing that perceptual deficits triggered by irreversible peripheral injuries can be reversed through targeted cortical circuit interventions.
Keyphrases
- hearing loss
- working memory
- machine learning
- deep learning
- high fat diet induced
- autism spectrum disorder
- traumatic brain injury
- drug induced
- spinal cord
- physical activity
- randomized controlled trial
- wild type
- transcranial direct current stimulation
- functional connectivity
- type diabetes
- adipose tissue
- clinical trial
- insulin resistance
- drug delivery
- placebo controlled
- neural network
- double blind