STMND1 is A Phylogenetically Ancient Stathmin which Localizes to Motile Cilia and Exhibits Nuclear Translocation that Is Inhibited When Soluble Tubulin Concentration Increases
Xiang Deng, Bryan O. Seguinot, Gary Bradshaw, Jong Suk Lee, Shannon Coy, Marian Kalocsay, Sandro Santagata, Timothy Mitchison- Cell Biology
- Molecular Biology
Stathmins are small, unstructured proteins that bind tubulin dimers and are implicated in several human diseases, but whose function remains unknown. We characterized a new stathmin, STMND1 (Stathmin Domain Containing 1) as the human representative of an ancient sub-family. STMND1 features a N-terminal myristoylated and palmitoylated motif which directs it to membranes and a tubulin-binding stathmin-like domain (SLD) that contains an internal nuclear localization signal. Biochemistry and proximity labeling showed that STMND1 binds tubulin, and live imaging showed that tubulin binding inhibits translocation from cellular membranes to the nucleus. STMND1 is highly expressed in multiciliated epithelial cells, where it localizes to motile cilia. Overexpression in a model system increased the length of primary cilia. Our study suggests that the most ancient stathmins have cilium-related functions that involve sensing soluble tubulin.
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