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Regulation of de- and reciliation by KRAS during muscle cell differentiation

Created on 09 Jul 2026

Authors

Chippalkatti, R., Parisi, B., Schaffner-Reckinger, E., Laurini, C., Gomez-Mulas, A., Geimer, Z., Abankwa, D. K.

Abstract

The primary cilium has been implicated in multiple developmental processes, such as cell migration and asymmetric cell division of stem- and progenitor cells. While most in vitro model systems examine ciliogenesis induced by serum starvation, it is not fully understood how de- and re-ciliation are regulated in proliferating stem- and progenitor cells. Here we employ the hierarchically organized C2C12 skeletal muscle cell line to examine how K-Ras4B participates in de- and re-ciliation processes of ciliated stem- and progenitor cells. We show that MAPK-pathway activation supports ciliogenesis through phosphorylation of centrosomal protein CEP55, which can then no longer stabilize the master regulator of de-ciliation Aurora kinase A. K-Ras4B localizes to the primary cilium aided by the ciliary trafficking chaperone PDE6D, which promotes ciliation. In line with this, depletion of components of the PDE6D machinery, RPGR and RPGRIP1L, decreases ciliation. Activation of the ciliary AMPK-PKG2-pathway increases S181-phosphorylation of K-Ras4B, which negatively regulates its binding to PDE6D, its ciliary abundance and promotes differentiation. Our work integrates a major mediator of mitogenic signaling into the regulation of ciliogenesis of proliferating muscle stem- and progenitor cells.

Preprint server: bioRxiv
The authors list and abstract were imported from bioRxiv on 09 Jul 2026.

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