Yoon S, Parnell E, Penzes P

Signaling by the cytokine transforming growth factor ? (TGF-?) has been implicated in a multitude of biological functions; however, TGF-? signaling, particularly in the CNS, remains largely unexplored. ANK3 variants (encoding ankyrin-G) are associated with bipolar disorder, intellectual disability, and autism spectrum disorder, while mutations in USP9X, which encodes a ...

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deubiquitinase, are associated with X-linked intellectual disability and autism in humans. Here, we show that TGF-? signaling promotes Usp9X phosphorylation, which enhances its interaction with ankyrin-G and stabilizes ankyrin-G in spines, leading to spine enlargement. Using in situ proximity ligation combined with structured illumination superresolution microscopy, we characterize the postsynaptic spatial organization of phosphorylation-dependent regulation of Usp9X/ankyrin-G interactions in dendrites and its quantitative relationship with spine morphology and number. These data reveal a cytokine-mediated mechanism regulating protein stability in spines and suggest a role for deubiquitination and TGF-? signaling in neurodevelopmental disorder pathogenesis and treatment.

Date: Dec. 26, 2019

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