Impairment of synaptic function can lead to neuropsychiatric disorders collectively referred to as synaptopathies. The SNARE protein SNAP-25 is implicated in several brain pathologies and, indeed, brain areas of psychiatric patients often display reduced SNAP-25 expression. It has been recently found that acute downregulation of SNAP-25 in brain slices impairs long-term potentiation; however, the processes through which this occurs are still poorly defined. We show that in vivo acute downregulation of SNAP-25 in CA1 hippocampal region affects spine number. Consistently, hippocampal neurons from SNAP-25 heterozygous mice show reduced densities of dendritic spines and defective PSD-95 dynamics. Finally, we show that, in brain, SNAP-25 is part of a molecular complex including PSD-95 and p140Cap, with p140Cap being capable to bind to both SNAP-25 and PSD-95. These data demonstrate an unexpected role of SNAP-25 in controlling PSD-95 clustering and open the possibility that genetic reductions of the protein levels -as occurring in schizophrenia -may contribute to the pathology through an effect on postsynaptic function and plasticity. Cell Death and Differentiation (2015) 22, 1425-1436 doi:10.1038/cdd.2014 published online 13 February 2015 Synapses are complex cellular junctions specialized for communication between neurons. Epidemiological and genetic studies demonstrated that deficiencies in synapse function 1 are implicated in a wide range of brain disorders, including neurodegenerative 2 and psychiatric diseases such as schizophrenia 3,4 and autism. 5,6 A hallmark of synaptic specializations is their dependence on highly organized complexes of proteins that interact with each other. Therefore, the loss or modification of key synaptic proteins might directly affect the properties of such networks and, ultimately, synaptic function.SNAP-25 is a component of the SNARE complex, which is central to synaptic vesicle exocytosis 7,8 and which has a role in the regulation of voltage-gated calcium channels. 9,10 The SNAP25 gene has been associated with attention deficit hyperactivity disorder (ADHD) 11,12 and with schizophrenia. 13,14 Consistently, SNAP-25 levels are lower in the hippocampus 15 and in the frontal lobe 16 of patients with schizophrenia. DNA variants of the SNAP25 gene that associate with ADHD are also associated with reduced expression level of the transcript in prefrontal cortex. 17 Finally, reduction of SNAP-25 levels has been found to cause neurodegeneration in mice lacking the synaptic vesicle protein Cysteine-string protein-α, possibly due to the impaired SNARE-complex assembly produced by the decreased SNAP-25. 18 The mechanisms by which reduced SNAP-25 expression may result in a psychiatric disease are still undefined, although alterations in neurotransmitter release have been indicated as potential causative processes. 19,20 Recently an unexpected postsynaptic role of SNAP-25 has been described, with the protein controlling NMDA and kainate receptor trafficking. 21 Furthermore, it has been lately ...
