Non-canonical role for the BAF complex subunit DPF3 in mitosis and ciliogenesis.

DPF3, along with other subunits, is a well-known component of the BAF chromatin remodeling complex that plays a key role in regulating chromatin remodeling activity and gene expression. Here, we elucidated a non-canonical localization and role for DPF3. We showed that DPF3 dynamically localizes to the centriolar satellites in interphase and in centrosome, spindle midzone/bridging fiber area and midbodies during mitosis. Loss of DPF3 causes K-fiber instability, unstable kinetochore-microtubules attachment and defects in chromosome alignment, thus resulting in altered mitotic progression, cell death and genomic instability. In addition, we also demonstrated that DPF3 localizes in centriolar satellites at the basis of primary cilia and is required for ciliogenesis by regulating axoneme extension. Together, these findings uncover a moonlighting dual function for DPF3 during mitosis and ciliogenesis.