Rui T. Peixoto scite author profile

Some autistic individuals exhibit abnormal development of the caudate nucleus and associative cortical areas, suggesting potential dysfunction of cortico-basal ganglia (BG) circuits. Using optogenetic and electrophysiological approaches in mice we identified a narrow postnatal period characterized by extensive glutamatergic synaptogenesis in striatal spiny projection neurons (SPNs) and a concomitant increase in corticostriatal circuit activity. SPNs during early development have high intrinsic excitability and respond strongly to cortical afferents despite sparse excitatory inputs. As a result, striatum and corticostriatal connectivity are highly sensitive to acute and chronic changes in cortical activity, suggesting that early imbalances in cortical function alter BG development. Indeed, a mouse model of autism with deletions in SHANK3 (Shank3B−/−) has early cortical hyperactivity, which triggers increased SPN excitatory synapse and corticostriatal hyper-connectivity. These results show a tight functional coupling between cortex and striatum during early postnatal development and suggest a potential common circuit dysfunction caused by cortical hyperactivity.

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Transsynaptic Signaling by Activity-Dependent Cleavage of Neuroligin-1

Peixoto

Kunz

Kwon

et al. 2012

Neuron

206

235

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Summary Adhesive contact between pre- and postsynaptic neurons initiates synapse formation during brain development and provides a natural means of trans-synaptic signaling. Numerous adhesion molecules and their role during synapse development have been described in detail. However, once established, the mechanisms of adhesive disassembly and its function in regulating synaptic transmission have been unclear. Here, we report that synaptic activity induces acute proteolytic cleavage of neuroligin-1 (NLG1), a postsynaptic adhesion molecule at glutamatergic synapses. NLG1 cleavage is triggered by NMDA receptor activation, requires Ca2+/calmodulin-dependent protein kinase, and is mediated by proteolytic activity of matrix metalloprotease 9 (MMP9). Cleavage of NLG1 occurs at single activated spines, is regulated by neural activity in vivo, and causes rapid destabilization of its presynaptic partner neurexin-1β (NRX1β). In turn, NLG1 cleavage depresses synaptic transmission by abruptly reducing presynaptic release probability. Thus, local proteolytic control of synaptic adhesion tunes synaptic transmission during brain development and plasticity.

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Rui T. Peixoto

Early hyperactivity and precocious maturation of corticostriatal circuits in Shank3B−/− mice

Transsynaptic Signaling by Activity-Dependent Cleavage of Neuroligin-1

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