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Regulation of autism-relevant behaviors by cerebellar-prefrontal cortical circuits

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Kelly, Elyza | Meng, Fantao | Fujita, Hirofumi | Morgado, Felipe | Kazemi, Yasaman | Rice, Laura | Ren, Chongryu | Ochoa Escamilla, Christine | Gibson, Jennifer | Sajadi, Sanaz | Pendry, Robert | Tan, Tommy | Ellegood, Jacob | Basson, M. Albert | Blakely, Randy | Dindot, Scott | Golzio, Christelle | Hahn, Maureen | Katsanis, Nicholas | Robins, Diane | Silverman, Jill | Singh, Karun | Wevrick, Rachel | Taylor, Margot | Hammill, Christopher | Anagnostou, Evdokia | Pfeiffer, Brad | Stoodley, Catherine | Lerch, Jason | Du Lac, Sascha | Tsai, Peter

Edité par CCSD ; Nature Publishing Group -

Cerebellar dysfunction has been demonstrated in autism spectrum disorders (ASDs); however, the circuits underlying cerebellar contributions to ASD-relevant behaviors remain unknown. In this study, we demonstrated functional connectivity between the cerebellum and the medial prefrontal cortex (mPFC) in mice; showed that the mPFC mediates cerebellum-regulated social and repetitive/inflexible behaviors; and showed disruptions in connectivity between these regions in multiple mouse models of ASD-linked genes and in individuals with ASD. We delineated a circuit from cerebellar cortical areas Right crus 1 (Rcrus1) and posterior vermis through the cerebellar nuclei and ventromedial thalamus and culminating in the mPFC. Modulation of this circuit induced social deficits and repetitive behaviors, whereas activation of Purkinje cells (PCs) in Rcrus1 and posterior vermis improved social preference impairments and repetitive/inflexible behaviors, respectively, in male PC-Tsc1 mutant mice. These data raise the possibility that these circuits might provide neuromodulatory targets for the treatment of ASD.

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