Abstract
Synaptic adhesion molecules regulate synapse development and function. However, whether and how presynaptic adhesion molecules regulate postsynaptic NMDAR function remains largely unclear. Presynaptic LAR family receptor tyrosine phosphatases (LAR-RPTPs) regulate synapse development through mechanisms that include trans-synaptic adhesion; however, whether they regulate postsynaptic receptor functions remains unknown. Here we report that presynaptic PTPσ, a LAR-RPTP, enhances postsynaptic NMDA receptor (NMDAR) currents and NMDAR-dependent synaptic plasticity in the hippocampus. This regulation does not involve trans-synaptic adhesions of PTPσ, suggesting that the cytoplasmic domains of PTPσ, known to have tyrosine phosphatase activity and mediate protein-protein interactions, are important. In line with this, phosphotyrosine levels of presynaptic proteins, including neurexin-1, are strongly increased in PTPσ-mutant mice. Behaviorally, PTPσ-dependent NMDAR regulation is important for social and reward-related novelty recognition. These results suggest that presynaptic PTPσ regulates postsynaptic NMDAR function through trans-synaptic and direct adhesion-independent mechanisms and novelty recognition in social and reward contexts.
Highlights
Synaptic adhesion molecules regulate synapse development and function through mechanisms that include trans-synaptic adhesions in the synaptic cleft and protein interactions with cytoplasmic and membrane proteins (de Wit and Ghosh, 2016; Sudhof, 2017; Sudhof, 2018; Shen and Scheiffele, 2010; Siddiqui and Craig, 2011; Sudhof, 2018; Yuzaki, 2018)
Normal expression of NMDA receptor (NMDAR) in the CA1 region is important for social novelty and novel reward-arm recognition. These results collectively suggest that presynaptic PTPs-mediated regulation of postsynaptic NMDAR currents and NMDAR-dependent long-term potentiation (LTP) is important for social novelty and novel reward-arm recognition in mice
Our results suggest that presynaptic PTPs regulates postsynaptic NMDAR currents and NMDARdependent LTP
Summary
Synaptic adhesion molecules regulate synapse development and function through mechanisms that include trans-synaptic adhesions in the synaptic cleft and protein interactions with cytoplasmic and membrane proteins (de Wit and Ghosh, 2016; Sudhof, 2017; Sudhof, 2018; Shen and Scheiffele, 2010; Siddiqui and Craig, 2011; Sudhof, 2018; Yuzaki, 2018) Postsynaptic receptors such as NMDA and AMPA receptors (NMDARs and AMPARs) constitute an important group of synaptic proteins regulated by synaptic adhesion molecules. This trans-synaptic regulation is critical for novelty recognition in multiple assays
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