| First Author | Zhu L | Year | 2019 |
| Journal | Biol Cell | Volume | 111 |
| Issue | 2 | Pages | 29-38 |
| PubMed ID | 30383886 | Mgi Jnum | J:292827 |
| Mgi Id | MGI:6451324 | Doi | 10.1111/boc.201800060 |
| Citation | Zhu L, et al. (2019) Rsph9 is critical for ciliary radial spoke assembly and central pair microtubule stability. Biol Cell 111(2):29-38 |
| abstractText | BACKGROUND INFORMATION: In the "9+2"-type motile cilia, radial spokes (RSs) protruded from the nine peripheral microtubule doublets surround and interact with the central pair (CP) apparatus to regulate ciliary beat. RSPH9 is the human homologue of the essential protozoan RS head protein Rsp9. Its mutations in human primary ciliary dyskinesia patients, however, cause CP loss in a small portion of airway cilia without affecting the ciliary localization of other head proteins. RESULTS: We characterized mouse Rsph9 and investigated its function in ependymal motile cilia. Rsph9 was specifically expressed in mouse tissues containing motile cilia and upregulated during multiciliation. Its ciliary localization complied with its putative role as an RS subunit. Depletion of Rsph9 by RNAi in mouse ependymal cilia resulted in a near complete CP loss and altered the ciliary beat pattern from planar to rotational. Multiple RS proteins, including those in the head, were also markedly downregulated in the Rsph9-depleted cilia. CONCLUSION: Rsph9 is essential for both the RS head assembly and the CP maintenance in mammalian ependymal cilia. SIGNIFICANCE: Our results help to understand the assembly and functions of mammalian RS and pathology of RS-related ciliopathy. |
