Abstract
Background Deletion or mutations of SHANK3 lead to Phelan-McDermid syndrome and monogenic forms of autism spectrum disorder. SHANK3 encodes its eponymous scaffolding protein at excitatory glutamatergic synapses. Altered dendritic and spine morphology in the hippocampus, cerebellum and striatum have been associated with behavioral impairments in various Shank3-deficient animal models. Given the attentional deficit reported in these animals, our study explored whether deficiency of Shank3 in a rat model alters synaptic ultrastructure in the medial prefrontal cortex. Methods We used electron microscopy to determine the density of asymmetric synapses in layer III excitatory neurons of the medial prefrontal cortex in 5 week-old Shank3-homozygous knockout ( Shank3 -KO), heterozygous ( Shank3 -Het), and wild-type (WT) rats. We also measured postsynaptic density length, postsynaptic density area, and head diameter of dendritic spines at these synapses. Results All three groups had comparable synapse density and postsynaptic density length. Spine head diameter of Shank3 -Het rats, but not Shank3 -KO, was larger than WT rats. Shank3 -Het rats had wider head diameter in non-perforated synapses compared to WT and Shank3 -KO rats. The total postsynaptic density area was significantly larger in Shank3 -Het rats compared to Shank3 -KO and WT rats. These findings represent preliminary evidence for synaptic ultrastructural alterations in the medial prefrontal cortex of rats that lack one copy of Shank3 and mimic the heterozygous loss of SHANK3 in Phelan-McDermid syndrome. Limitations The Shank3 deletion in the rat model we used does not affect all isoforms of the protein and as such, would only model the effect of the mutations resulting in loss of the N-terminus of the protein. Given the higher prevalence of ASD in males, this study focused only on synaptic ultrastructure in male Shank3 -deficient rats. Conclusions We observed increased head diameter and postsynaptic density area in rats heterozygous for Shank3 deficiency. Further investigations of the mechanisms leading to altered synaptic ultrastructure in this animal model will enable us to understand better the role that Shank3 protein plays in autism spectrum disorder and Phelan-McDermid syndrome.
Changes in brain metabolic connectivity underlie autistic-like social deficits in a rat model of autism spectrum disorder
