Hypomyelination reduces parvalbumin interneuron density and auditory cortex inhibitory function
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Abstract
ABSTRACT For a long time, myelin was thought to be restricted to excitatory neurons, and studies on dysmyelination focused primarily on excitatory cells. Recent evidence showed that axons of inhibitory neurons in the neocortex are also myelinated, but the role of myelin on inhibitory circuits remains unknown. Here we studied the impact of mild hypomyelination on both excitatory and inhibitory connectivity in the primary auditory cortex (A1) with well-characterized mouse models of hypomyelination due to loss of oligodendrocyte ErbB receptor signaling. Using laser-scanning photostimulation, we found that mice with mild hypomyelination have reduced functional inhibitory connections to A1 L2/3 neurons without changes in excitatory connections, resulting in altered excitatory/inhibitory balance. These effects are not associated with altered expression of GABAergic and glutamatergic synaptic components, but with reduced density of parvalbumin-positive (PV + ) neurons, which reflects reduced PV expression by interneurons rather than PV + neuronal loss. While immunostaining shows that hypomyelination occurs in both PV + and PV - axons, there is a strong correlation between MBP and PV expression suggesting that myelination influences PV expression. Together, the results demonstrate that mild hypomyelination impacts A1 neuronal networks, reducing inhibitory activity, and shifting networks towards excitation.
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- last seen: 2026-05-19T01:45:01.086888+00:00