Thalamic reticular neurons provide cell type-specific modulation of sound processing in the auditory thalamus
Solymar Rolón-Martínez, Austin J. Mendoza, Christopher F. Angeloni, Nathan W. Vogler, Audrey C. Drotos, Mark Aizenberg, Ruoyi Chen, Kaylie Vu, Julie S. Haas, Maria N. Geffen

TL;DR
This study reveals how two types of inhibitory neurons in the thalamic reticular nucleus modulate sound processing in the auditory thalamus in mice.
Contribution
The study identifies cell type-specific modulation of auditory thalamus activity by PVTRN and SSTTRN neurons.
Findings
PVTRN neurons project to ventral MGB, while SSTTRN neurons project to dorso-medial MGB.
Optogenetic inactivation of PVTRN neurons bidirectionally modulates sound-evoked activity in MGB.
Inactivating SSTTRN neurons largely suppresses tone-evoked activity in MGB neurons.
Abstract
Inhibition plays an important role in controlling the flow and processing of auditory information throughout the central auditory pathway, yet how inhibitory circuits shape auditory processing in the medial geniculate body (MGB), the key region in the auditory thalamus, is poorly understood. The MGB gates the flow of auditory information to the auditory cortex, and it is inhibited largely by the thalamic reticular nucleus (TRN). The TRN contains two major classes of inhibitory neurons: parvalbumin (PVTRN)-positive and somatostatin (SSTTRN)-positive neurons. PV and SST neurons have been shown to play differential roles in controlling sound responses in auditory cortex. In the somatosensory and visual subregions of the TRN, PVTRN and SSTTRN neurons exhibit anatomical and functional differences. However, it remains unknown whether and how PVTRN and SSTTRN neurons differ in their anatomical…
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Taxonomy
TopicsHearing, Cochlea, Tinnitus, Genetics · Neural dynamics and brain function · Neuroscience of respiration and sleep
