TY - JOUR T1 - Defective Synapse Maturation and Enhanced Synaptic Plasticity in Shank2 Δex7<sup>–/–</sup> Mice JF - eneuro JO - eNeuro DO - 10.1523/ENEURO.0398-17.2018 VL - 5 IS - 3 SP - ENEURO.0398-17.2018 AU - Stephanie Wegener AU - Arne Buschler AU - A. Vanessa Stempel AU - Sukjae J. Kang AU - Chae-Seok Lim AU - Bong-Kiun Kaang AU - Sarah A. Shoichet AU - Denise Manahan-Vaughan AU - Dietmar Schmitz Y1 - 2018/05/01 UR - http://www.eneuro.org/content/5/3/ENEURO.0398-17.2018.abstract N2 - Autism spectrum disorders (ASDs) are neurodevelopmental disorders with a strong genetic etiology. Since mutations in human SHANK genes have been found in patients with autism, genetic mouse models are used for a mechanistic understanding of ASDs and the development of therapeutic strategies. SHANKs are scaffold proteins in the postsynaptic density of mammalian excitatory synapses with proposed functions in synaptogenesis, regulation of dendritic spine morphology, and instruction of structural synaptic plasticity. In contrast to all studies so far on the function of SHANK proteins, we have previously observed enhanced synaptic plasticity in Shank2 Δex7−/− mice. In a series of experiments, we now reproduce these results, further explore the synaptic phenotype, and directly compare our model to the independently generated Shank2 Δex6-7−/− mice. Minimal stimulation experiments reveal that Shank2 Δex7−/− mice possess an excessive fraction of silent (i.e., α-amino-3-hydroxy-5-methyl-4-isoxazolepropionic acid, short, AMPA receptor lacking) synapses. The synaptic maturation deficit emerges during the third postnatal week and constitutes a plausible mechanistic explanation for the mutants’ increased capacity for long-term potentiation, both in vivo and in vitro. A direct comparison with Shank2 Δex6-7−/− mice adds weight to the hypothesis that both mouse models show a different set of synaptic phenotypes, possibly due to differences in their genetic background. These findings add to the diversity of synaptic phenotypes in neurodevelopmental disorders and further support the supposed existence of “modifier genes” in the expression and inheritance of ASDs. ER -