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Article Dans Une Revue Nature Communications Année : 2015

miR-34/449 control apical actin network formation during multiciliogenesis through small GTPase pathways

Résumé

Vertebrate multiciliated cells (MCCs) contribute to fluid propulsion in several biological processes. We previously showed that microRNAs of the miR-34/449 family trigger MCC differentiation by repressing cell cycle genes and the Notch pathway. Here, using human and Xenopus MCCs, we show that beyond this initial step, miR-34/449 later promote the assembly of an apical actin network, required for proper basal bodies anchoring. Identification of miR-34/449 targets related to small GTPase pathways led us to characterize R-Ras as a key regulator of this process. Protection of RRAS messenger RNA against miR-34/449 binding impairs actin cap formation and multiciliogenesis, despite a still active RhoA. We propose that miR-34/449 also promote relocalization of the actin binding protein Filamin-A, a known RRAS interactor, near basal bodies in MCCs. Our study illustrates the intricate role played by miR-34/449 in coordinating several steps of a complex differentiation programme by regulating distinct signalling pathways.
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hal-01432243 , version 1 (07-01-2020)

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B. Chevalier, A. Adamiok, O. Mercey, D.R Revinsky, L.E. Zaragosi, et al.. miR-34/449 control apical actin network formation during multiciliogenesis through small GTPase pathways. Nature Communications, 2015, 6, pp.8386. ⟨10.1038/ncomms9386⟩. ⟨hal-01432243⟩
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