RESUMEN
Bone morphogenetic protein 2 (BMP2)-inducible kinase (BMP2K) is induced by the cytokine BMP2, which is also implicated in the production of bone differentiation. In addition to regulating bone differentiation, BMP2K is implicated in a variety of cancers. Therefore, understanding the variables that determine where in the cell this kinase functions may help in understanding malignancies linked to BMP2K. However, the mechanisms regulating the subcellular localization of BMP2K are mainly unknown. By liquid-liquid phase separation (LLPS), BMP2K forms droplets in the cytoplasm, but how the droplets are regulated remains unclear. The reason why BMP2K localizes to the cytoplasm irrespective of having a nuclear localization signal (NLS) is also unknown. Here we show the element that controls BMP2K's LLPS and cytoplasmic localization. A glutamine-rich area is necessary for BMP2K phase separation, and droplet formation is controlled by hyperosmolarity. Cytoplasmic localization of BMP2K is managed by inhibition of NLS function through phosphorylation of Ser-1010 and by a newly found cytoplasmic localization region that antagonizes the NLS. These results will provide an important biochemical foundation for the advancement of BMP2K-related cell biology, structural biology, and pathophysiology.