Adeline Mayeux scite author profile

Many eukaryotic cell types undergo size-dependent cell cycle transitions controlled by the ubiquitous cyclin-dependent kinase Cdk1 (refs 1-4). The proteins that control Cdk1 activity are well described but their links with mechanisms monitoring cell size remain elusive. In the fission yeast Schizosaccharomyces pombe, cells enter mitosis and divide at a defined and reproducible size owing to the regulated activity of Cdk1 (refs 2, 3). Here we show that the cell polarity protein kinase Pom1, which localizes to cell ends, regulates a signalling network that contributes to the control of mitotic entry. This network is located at cortical nodes in the middle of interphase cells, and these nodes contain the Cdk1 inhibitor Wee1, the Wee1-inhibitory kinases Cdr1 (also known as Nim1) and Cdr2, and the anillin-like protein Mid1. Cdr2 establishes the hierarchical localization of other proteins in the nodes, and receives negative regulatory signals from Pom1. Pom1 forms a polar gradient extending from the cell ends towards the cell middle and acts as a dose-dependent inhibitor of mitotic entry, working through the Cdr2 pathway. As cells elongate, Pom1 levels decrease at the cell middle, leading to mitotic entry. We propose that the Pom1 polar gradient and the medial cortical nodes generate information about cell size and coordinate this with mitotic entry by regulating Cdk1 through Pom1, Cdr2, Cdr1 and Wee1.

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Spatial Control of Cytokinesis by Cdr2 Kinase and Mid1/Anillin Nuclear Export

Almonacid

et al. 2009

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Maintaining genome integrity and cellular function requires proper positioning of the cell division plane. In most eukaryotes, cytokinesis relies on a contractile actomyosin ring positioned by intrinsic spatial signals that are poorly defined at the molecular level. Fission yeast cells assemble a medial contractile ring in response to positive spatial cues from the nucleus at the cell center and negative spatial cues from the cell tips. These signals control the localization of the anillin-like protein Mid1, which defines the position of the division plane at the medial cortex, where it recruits contractile-ring components at mitosis onset. Here we show that Cdr2 kinase anchors Mid1 at the medial cortex during interphase through association with the Mid1 N terminus. This association underlies the negative regulation of Mid1 distribution by cell tips. We also demonstrate that the positive signaling from the nucleus is based on Mid1 nuclear export, which links division-plane position to nuclear position during early mitosis. After nuclear displacement, Mid1 nuclear export is dominant over Cdr2-dependent positioning of Mid1. We conclude that Cdr2- and nuclear export-dependent positioning of Mid1 constitute two overlapping mechanisms that relay cell polarity and nuclear positional information to ensure proper division-plane specification.

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Temporal Control of Contractile Ring Assembly by Plo1 Regulation of Myosin II Recruitment by Mid1/Anillin

et al. 2011

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Summary In eukaryotes, cytokinesis generally involves an acto-myosin ring, the contraction of which promotes daughter cells segregation. Assembly of the contractile ring is tightly controlled in space and time (see[1–4] for reviews). In the fission yeast, contractile ring components are first organized by the Anillin-like protein Mid1 [5, 6] and Cdr2 kinase [7–9] into medial cortical nodes. These nodes then coalesce laterally into a functional compact contractile ring [10–13]. Although Mid1 is present at the medial cortex throughout G2 phase [14], recruitment of contractile ring components to nodes starts only at mitotic onset [12] indicating that this event is cell cycle regulated. Polo kinases are key temporal coordinators of mitosis and cytokinesis [1] and the Polo-like kinase Plo1 [15] has long been implicated in Mid1 regulation [16]: Plo1 activates Mid1 nuclear export at mitotic onset [16], coupling division plane specification to nuclear position [7]. Here, we provide evidence that Plo1 also triggers the recruitment of contractile ring components into medial cortical nodes. Plo1 binds at least two independent sites on Mid1, including a consensus site phosphorylated by Cdc2. Plo1 phosphorylates several residues within the first 100 amino acids of Mid1, which directly interact with the IQGAP Rng2 [17], and influences the timing of Myosin II recruitment. Plo1 thereby facilitates contractile ring assembly at mitotic onset.

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Adeline Mayeux

A spatial gradient coordinates cell size and mitotic entry in fission yeast

Spatial Control of Cytokinesis by Cdr2 Kinase and Mid1/Anillin Nuclear Export

Temporal Control of Contractile Ring Assembly by Plo1 Regulation of Myosin II Recruitment by Mid1/Anillin

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