3 years ago

Calibrated mitotic oscillator drives motile ciliogenesis

Alice Meunier, Adel Al Jord, Raphaël Servignat d’Aout, Joëlle Sobczak-Thépot, Anthi Karaiskou, Auguste Genovesio, Nathalie Spassky, Marion Faucourt, Asm Shihavuddin

Cell division and differentiation depend on massive and rapid organelle remodeling. The mitotic oscillator, centered on the cyclin-dependent kinase 1–anaphase-promoting complex/cyclosome (CDK1-APC/C) axis, spatiotemporally coordinates this reorganization in dividing cells. Here we discovered that nondividing cells could also implement this mitotic clocklike regulatory circuit to orchestrate subcellular reorganization associated with differentiation. We probed centriole amplification in differentiating mouse-brain multiciliated cells. These postmitotic progenitors fine-tuned mitotic oscillator activity to drive the orderly progression of centriole production, maturation, and motile ciliation while avoiding the mitosis commitment threshold. Insufficient CDK1 activity hindered differentiation, whereas excessive activity accelerated differentiation yet drove postmitotic progenitors into mitosis. Thus, postmitotic cells can redeploy and calibrate the mitotic oscillator to uncouple cytoplasmic from nuclear dynamics for organelle remodeling associated with differentiation.

Publisher URL: http://science.sciencemag.org/cgi/content/short/358/6364/803

DOI: 10.1126/science.aan8311

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