Marion Poteau scite author profile

Marion Poteau

3Publications

62Citation Statements Received

143Citation Statements Given

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218

126

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Institut Gustave Roussy, French National Centre for Scientific Research, University of Paris-Sud

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AURKA destruction is decoupled from its activity at mitotic exit but is essential to suppress interphase activity

Abdelbaki

Akman

Poteau

et al. 2020

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Activity of AURKA is controlled through multiple mechanisms including phosphorylation, ubiquitin-mediated degradation and allosteric interaction with TPX2. Activity peaks at mitosis, before AURKA is degraded during and after mitotic exit in a process strictly dependent on the APC/C coactivator FZR1. We used FZR1 knockout cells (FZR1 KO) and a novel FRET-based AURKA biosensor to investigate how AURKA activity is regulated in the absence of destruction. We found that AURKA activity in FZR1 KO cells dropped at mitotic exit as rapidly as in parental cells, despite absence of AURKA destruction. Unexpectedly, TPX2 was degraded normally in FZR1 KO cells. Overexpression of an N-terminal TPX2 fragment sufficient for AURKA binding, but that is not degraded at mitotic exit, caused delay in AURKA inactivation. We conclude that inactivation of AURKA at mitotic exit is determined not by AURKA degradation but by degradation of TPX2 and therefore is dependent on CDC20 rather than FZR1. The biosensor revealed that FZR1 instead suppresses AURKA activity in interphase and is critically required for assembly of the interphase mitochondrial network after mitosis.

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Chk1 dynamics in G2 phase upon replication stress predict daughter cell outcome

Lebrec¹,

Poteau²,

Morretton³

et al. 2022

Developmental Cell

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Bora phosphorylation substitutes in trans for T-loop phosphorylation in Aurora A to promote mitotic entry

et al. 2021

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Polo-like kinase 1 (Plk1) is instrumental for mitotic entry and progression. Plk1 is activated by phosphorylation on a conserved residue Thr210 in its activation segment by the Aurora A kinase (AURKA), a reaction that critically requires the co-factor Bora phosphorylated by a CyclinA/B-Cdk1 kinase. Here we show that phospho-Bora is a direct activator of AURKA kinase activity. We localize the key determinants of phospho-Bora function to a 100 amino acid region encompassing two short Tpx2-like motifs and a phosphoSerine-Proline motif at Serine 112, through which Bora binds AURKA. The latter substitutes in trans for the Thr288 phospho-regulatory site of AURKA, which is essential for an active conformation of the kinase domain. We demonstrate the importance of these determinants for Bora function in mitotic entry both in Xenopus egg extracts and in human cells. Our findings unveil the activation mechanism of AURKA that is critical for mitotic entry.

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Marion Poteau

AURKA destruction is decoupled from its activity at mitotic exit but is essential to suppress interphase activity

Chk1 dynamics in G2 phase upon replication stress predict daughter cell outcome

Bora phosphorylation substitutes in trans for T-loop phosphorylation in Aurora A to promote mitotic entry

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