Astrocytes Control Sensory Acuity via Tonic Inhibition in the Thalamus

Sensory discrimination is essential for survival. However, how sensory information is finely controlled in the brain is not well defined. Here, we show that astrocytes control tactile acuity via tonic inhibition in the thalamus. Mechanistically, diamine oxidase (DAO) and the subsequent aldehyde dehydrogenase 1a1 (Aldh1a1) convert putrescine into GABA, which is released via Best1. The GABA from astrocytes inhibits synaptically evoked firing at the lemniscal synapses to fine-tune the dynamic range of the stimulation-response relationship, the precision of spike timing, and tactile discrimination. Our findings reveal a novel role of astrocytes in the control of sensory acuity through tonic GABA release. [Display omitted] •Thalamic astrocytes synthesize GABA via DAO and Aldh1a1 to mediate tonic inhibition•Tonic GABA improves linearity and temporal fidelity of synaptically evoked TC firing•Astrocytic tonic GABA improves tactile discrimination performance Kwak et al. report that astrocytes synthesize GABA using DAO and Aldh1a1 and release GABA through the Best1 channel to mediate tonic GABA in the thalamus. Astrocytic tonic GABA fine-tunes the dynamic range and precision of stimulation to response of TC firing, thus enhancing the performance of sensory discrimination of mice.