CSNK2A1

Cilia effects upon perturbation of CSNK2A1

Cilia number / % ciliated:

No effect

Loss-of-function effect:

Longer cilia

Overexpression effect:

Unknown

Ciliogenesis screen results (5 screens)

• Kim2016: Not Reported
• Wheway et al. 2015 (siRNA) [siRNA]: No effect PMID:26167766
• Breslow et al. 2018 (CRISPR) [CRISPR]: No Significant Effect PMID:29459680
• Roosing et al. 2015 (siRNA) [siRNA]: No effect PMID:26595381
• Pusapati et al. 2018 (CRISPR) [CRISPR]: Negative Regulator (Hh signaling, pos_rank=43, lfc=0.92) PMID:30270045

Subcellular localization

basal body

Functional category

• Ciliary assembly/disassembly
• Trafficking (BBSome, small GTPases, vesicular transport, ATPases)
• Actin & cytoskeleton regulation
• Viral interactions
• Protein processing & maturation
• Signaling (Hedgehog, GPCRs, ion channels)
• Transcription regulation

Function

CK2 catalytic subunit CSNK2A1 as an important modulator of TTBK2 function in cilia trafficking. Superresolution microscopy reveals that CSNK2A1 is a centrosomal protein concentrated at the mother centriole and associated with the distal appendages. Csnk2a1 mutant cilia are longer than those of control cells, showing instability at the tip associated with ciliary actin cytoskeleton changes. These cilia also abnormally accumulate key cilia assembly and SHH-related proteins. De novo mutations of Csnk2a1 were recently linked to the human genetic disorder Okur-Chung neurodevelopmental syndrome (OCNDS). Consistent with the role of CSNK2A1 in cilium stability, we find that expression of OCNDS-associated Csnk2a1 variants in wild-type cells causes ciliary structural defects. Our findings provide insights into mechanisms involved in ciliary length regulation, trafficking, and stability that in turn shed light on the significance of cilia instability in human disease(PMID: 33846249).