Spike timing-dependent plasticity (STDP) is a learning rule important for synaptic refinement and for learning and memory during development. While different forms of presynaptic t-LTD have been deeply investigated, little is known about the mechanisms of somatosensory cortex postsynaptic t-LTD. In the present work, we investigated the requirements and mechanisms for induction of developmental spike timing-dependent long-term depression (t-LTD) at L2/3-L2/3 synapses in the juvenile mouse somatosensory cortex. We found that P13-21 mice of either sex show t-LTD at L2/3-L2/3 synapses induced by pairing single presynaptic activity with single postsynaptic action potentials at low stimulation frequency (0.2 Hz) is expressed postsynaptically, and requires the activation of ionotropic postsynaptic NMDA-type glutamate receptors containing GluN2B subunits. In addition, it requires postsynaptic Ca2+, Ca2+ release from internal stores, calcineurin, postsynaptic endocannabinoid (eCB) synthesis, activation of CB1 receptors and astrocytic signalling to release the gliotransmitter d-serine to activate postsynaptic NMDARs to induce t-LTD. These results show direct evidence of the mechanism involved in developmental postsynaptic t-LTD at L2/3-L2/3 synapses, revealing a central role of astrocytes and their release of D-serine in its induction.Significance statement We show here the mechanisms and role of astrocytes and gliotransmitters in a postsynaptic spike timing dependent long-term depression (t-LTD) form defined at layer (L)2/3-L2/3 synapses of the somatosensory cortex. We have discovered that this form of plasticity involves N-methyl D-aspartate receptors (NMDAR) containing the GluN2B subunit and requires astrocytes and the gliotransmitter D-serine to co-activate (together with glutamate) postsynaptic NMDAR to mediate LTD. This can be a general mechanism in the brain to define different forms of plasticity. Defining the mechanisms of synaptic plasticity may have important implications for brain repair, sensorial recovery, the treatment of neurodevelopmental disorders and even, for educational policy.
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