Protein components of post‐synaptic density lattice, a backbone structure for type I excitatory synapses

It is essential to study the molecular architecture of post‐synaptic density ( PSD ) to understand the molecular mechanism underlying the dynamic nature of PSD , one of the bases of synaptic plasticity. A well‐known model for the architecture of PSD of type I excitatory synapses basically comprises of several scaffolding proteins (scaffold protein model). On the contrary, ‘ PSD lattice’ observed through electron microscopy has been considered a basic backbone of type I PSD s. However, major constituents of the PSD lattice and the relationship between the PSD lattice and the scaffold protein model, remain unknown. We purified a PSD lattice fraction from the synaptic plasma membrane of rat forebrain. Protein components of the PSD lattice were examined through immuno‐gold negative staining electron microscopy. The results indicated that tubulin, actin, α‐internexin, and Ca 2+ /calmodulin‐dependent kinase II are major constituents of the PSD lattice, whereas scaffold proteins such as PSD ‐95, SAP 102, GKAP , Shank1, and Homer, were rather minor components. A similar structure was also purified from the synaptic plasma membrane of forebrains from 7‐day‐old rats. On the basis of this study, we propose a ‘ PSD lattice‐based dynamic nanocolumn’ model for PSD molecular architecture, in which the scaffold protein model and the PSD lattice model are combined and an idea of dynamic nanocolumn PSD subdomain is also included. In the model, cytoskeletal proteins, in particular, tubulin, actin, and α‐internexin, may play major roles in the construction of the PSD backbone and provide linker sites for various PSD scaffold protein complexes/subdomains.