To tackle the proposed objectives, we used an array of genetic, optogenetic and pharmacological tools in combination with imaging and electrophysiological approaches. Specifically, we have identified vesicular zinc as a selective modulator of synaptic plasticity and dendritic non-linearities in the primary somatosensory cortex through its actions on synaptic NMDARs (Morabito et al., 2022, Cell. Reports, in press). Our results suggest that such a mechanism should have an important role in the function of the neocortex.
We were also able to observe that neocortical interneurons express functional NMDARs with unusual biophysical properties. We observed that such an atypical NMDA receptor are selectivity expressed in somatostatin-positive interneurons. In vivo recordings revealed that the new signaling mechanism is essential for the neuronal representation of spontaneous behaviors. The study was submitted for publication. The original finding opens a new perspective on the cellular mechanisms that govern neocortical function and reveals a previously unknown molecular target that can be used to develop new therapies for neurological diseases.