Link to bioRxiv paper: http://biorxiv.org/cgi/content/short/2020.06.01.128611v1?rss=1 Authors: Wundrach, D., Martinetti, L. E., Stafford, A. M., Bilinovich, S. M., Angara, K., Crandall, S. R., Vogt, D. Abstract: Tuberous Sclerosis Complex is a complex syndrome that affects multiple organs and is caused by dysfunction of either the TSC1 or TSC2 genes. One of the least understood features of TSC is the impact of TSC1&2 variants on brain phenotypes, including elevated rates of autism spectrum disorder and seizures. Moreover, while a great deal of work has uncovered how loss of either gene can alter various neural cell types, the impact of many variants in TSC and on these cell types is poorly understood. In particular, missense variants that cause minor changes in the proteins are expected to cause functional changes that differ from a complete loss of the protein. Herein, we examined how some missense variants in TSC1 impacted the development of cortical inhibitory interneurons, a cell type whose molecular, cellular and physiological properties are known to be altered after loss of mouse Tsc1. Importantly, we found that most missense variants complemented phenotypes caused by loss of Tsc1 and resulting in elevated MTOR activity as well as several cell intrinsic physiological properties. However, distinct variants showed deficits in complementing an increase in parvalbumin levels, which is observed after loss of Tsc1 and demonstrated smaller amplitudes of after hyperpolarizations. These data suggest subtle but sensitive phenotypes can be detected by some TSC1 missense variants and provide an in vivo system in which to better assess TSC variants. Copy rights belong to original authors. Visit the link for more info