TY - JOUR T1 - Comprehensive Analysis of Two <em>Shank3</em> and the Cacna1c Mouse Models of Autism Spectrum Disorder JF - bioRxiv DO - 10.1101/068866 SP - 068866 AU - Patricia Kabitzke AU - Daniela Brunner AU - Dansha He AU - Pamela A. Fazio AU - Kimberly Cox AU - Jane Sutphen AU - Lucinda Thiede AU - Emily Sabath AU - Taleen Hanania AU - Vadim Alexandrov AU - Randall Rasmusson AU - Will Spooren AU - Anirvan Ghosh AU - Pamela Feliciano AU - Barbara Biemans AU - Marta Benedetti AU - Alice Luo Clayton Y1 - 2016/01/01 UR - http://biorxiv.org/content/early/2016/09/02/068866.abstract N2 - To expand, analyze and extend published behavioral phenotypes relevant to autism spectrum disorder (ASD), we present a study of three ASD genetic mouse models: Feng’s Shank3tm2Gfng model, hereafter Shank3/F, Jiang’s Shank3tm1Yhj model, hereafter Shank3/J, and the Cacna1c deletion model. The Shank3/F and Shank3/J models mimick gene mutations associated with Phelan-Mcdermid syndrome and the Cacna1c model recapitulates the deletion underlying Timothy syndrome. The current study utilizes both standard and novel, computer-vision based behavioral tests, the same methdology used in our previously published companion report on the Cntnap2 null and 16p11.2 deletion models. Overall, some but not all behaviors replicated published findings. Those that replicated, such as social behavior and overgrooming in Shank3 models, also tended to be milder than previous reports. The Shank3/F model, and to a much lesser extent, the Shank3/J and Cacna1c models, showed hypoactivity and a general anxiety-like behavior triggered by external stimuli which pervaded social interactions. We did not detect deficits in a cognitive procedural learning test nor did we observe perseverative behavior in these models. We did, however, find differences in exploratory patterns of Cacna1c mutant mice suggestive of a behavioral effect in a social setting. In addition, Shank3/F but not Shank3/J KO or Cacna1c HET showed differences in sensory-gating. Discrepancies in our current results from previous reports may be dependent on subtle differences in testing conditions, housing enrichment, or background strain. Both positive and negative results from this study will be useful in identifying the most robust and replicable behavioral signatures within and across mouse models of autism. Understanding these phenotypes may shed light of which features to study when screening compounds for potential therapeutic interventions. ER -