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- Title
Inhibitory Gating of Thalamocortical Inputs onto Rat Gustatory Insular Cortex.
- Authors
Haley, Melissa S.; Fontanini, Alfredo; Maffei, Arianna
- Abstract
In primary gustatory cortex (GC), a subregion of the insular cortex, neurons show anticipatory activity, encode taste identity and palatability, and their activity is related to decision-making. Inactivation of the gustatory thalamus, the parvicellular region of the ventral posteromedial thalamic nucleus (VPMpc), dramatically reduces GC taste responses, consistent with the hypothesis that VPMpc-GC projections carry taste information. Recordings in awake rodents reported that taste-responsive neurons can be found across GC, without segregated spatial mapping, raising the possibility that projections from the taste thalamus may activate GC broadly. In addition, we have shown that cortical inhibition modulates the integration of thalamic and limbic inputs, revealing a potential role for GABA transmission in gating sensory information to GC. Despite this wealth of information at the system level, the synaptic organization of the VPMpc-GC circuit has not been investigated. Here, we used optogenetic activation of VPMpc afferents to GC in acute slice preparations from rats of both sexes to investigate the synaptic properties and organization of VPMpc afferents in GC and their modulation by cortical inhibition. We hypothesized that VPMpc-GC synapses are distributed across GC, but show laminar- and cell-specific properties, conferring computationally flexibility to how taste information is processed. We also found that VPMpc-GC synaptic responses are strongly modulated by the activity regimen of VPMpc afferents, as well as by cortical inhibition activating GABAA and GABAB receptors onto VPMpc terminals. These results provide a novel insight into the complex features of thalamocortical circuits for taste processing.
- Subjects
THALAMIC nuclei; INSULAR cortex; RATS; AFFERENT pathways; THALAMUS; INFORMATION storage &; retrieval systems; H-reflex; NEURONS
- Publication
Journal of Neuroscience, 2023, Vol 43, Issue 44, p7294
- ISSN
0270-6474
- Publication type
Article
- DOI
10.1523/JNEUROSCI.2255-22.2023