Luca Cirillo scite author profile

The conserved Bora protein is a Plk1 activator, essential for checkpoint recovery after DNA damage in human cells. Here, we show that Bora interacts with Cyclin B and is phosphorylated by Cyclin B/Cdk1 at several sites. The first 225 amino acids of Bora, which contain two Cyclin binding sites and three conserved phosphorylated residues, are sufficient to promote Plk1 phosphorylation by Aurora A in vitro. Mutating the Cyclin binding sites or the three conserved phosphorylation sites abrogates the ability of the N terminus of Bora to promote Plk1 activation. In human cells, Bora-carrying mutations of the three conserved phosphorylation sites cannot sustain mitotic entry after DNA damage. In C. elegans embryos, mutation of the three conserved phosphorylation sites in SPAT-1, the Bora ortholog, results in a severe mitotic entry delay. Our results reveal a crucial and conserved role of phosphorylation of the N terminus of Bora for Plk1 activation and mitotic entry.

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The Elephant in the Room: The Role of Microtubules in Cancer

Cirillo

Gotta

Meraldi

2017

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Microtubules are the backbone of all eukaryotic cells cytoskeleton. Their dynamic behaviour constitutes the basis for many biological processes such as cellular motility, cytoplasmic transport and cell division. Some the most effective chemotherapeutics, such as the taxanes, are microtubule interfering drugs. Moreover, many studies suggest that microtubule dynamics are altered in cancer cell divisions and linked to chromosomal instability, aneuploidy and development of drug resistances. The elephant in the room, however, is that despite all these evidences, the exact role of microtubules in malignancies remains elusive, partially due to the lack of clear genetic alterations linking microtubules to cancer. This review will discuss the molecular mechanisms that might alter microtubule dynamics in cancer cells, the pro and cons of the different theories linking these alterations to cancer progression, and the possible directions to address future key questions.

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Mitotic entry: The interplay between Cdk1, Plk1 and Bora

et al. 2016

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Polo-like kinase 1 (Plk1) is an important mitotic kinase that is crucial for entry into mitosis after recovery from DNA damage-induced cell cycle arrest. Plk1 activation is promoted by the conserved protein Bora (SPAT-1 in C. elegans), which stimulates the phosphorylation of a conserved residue in the activation loop by the Aurora A kinase. In a recent article published in Cell Reports, we show that the master mitotic kinase Cdk1 contributes to Plk1 activation through SPAT-1/Bora phosphorylation. We identified 3 conserved Sp/Tp residues that are located in the N-terminal, most conserved part, of SPAT-1/Bora. Phosphorylation of these sites by Cdk1 is essential for Plk1 function in mitotic entry in C. elegans embryos and during DNA damage checkpoint recovery in mammalian cells. Here, using an untargeted Förster Resonance Energy Transfer (FRET) biosensor to monitor Plk1 activation, we provide additional experimental evidence supporting the importance of these phosphorylation sites for Plk1 activation and subsequent mitotic entry after DNA damage. We also briefly discuss the mechanism of Plk1 activation and the potential role of Bora phosphorylation by Cdk1 in this process. As Plk1 is overexpressed in cancer cells and this correlates with poor prognosis, understanding how Bora contributes to Plk1 activation is paramount for the development of innovative therapeutical approaches.

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PIM2 Kinase Is Induced by Cisplatin in Ovarian Cancer Cells and Limits Drug Efficacy

et al. 2014

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Platinum-based chemotherapy is widely used to treat various cancers, but many patients ultimately relapse due to drug resistance. We employed phosphoproteomic analysis and functional assays of the response of SK-OV-3 ovarian cancer cells to cisplatin as a strategy to identify kinases as candidate druggable targets to sensitize cells to platinum. A SILAC-based approach combined with TiO 2 -based phosphopeptide enrichment allowed the direct identification of ERK1/ 2, p90RSK, and ERBB2 as kinases whose phosphorylation is regulated by cisplatin. Bioinformatic analysis revealed enrichment in linear phosphorylation motifs predicted to be targets of p38MAPK, CDK2, and PIM2. All three PIM kinases were found expressed in a panel of 10 ovarian cancer cell lines, with the oncogenic PIM2 being the most commonly induced by cisplatin. Targeting PIM2 kinase by either biochemical inhibitors or RNA interference impaired cell growth, decreased cisplatin-triggered BAD phosphorylation, and sensitized ovarian cancer cells to druginduced apoptosis. Overexpression of PIM2 triggered anchorage-independent growth and resulted in increased BAD phosphorylation and cell resistance to DNA damaging agents. The data show that the PIM2 kinase plays a role in the response of ovarian cancer cells to platinum drugs and suggest that PIM inhibitors may find clinical application as an adjunct to platinumbased therapies.

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Luca Cirillo

UBAP2L Forms Distinct Cores that Act in Nucleating Stress Granules Upstream of G3BP1

Cdk1 Phosphorylates SPAT-1/Bora to Promote Plk1 Activation in C. elegans and Human Cells

The Elephant in the Room: The Role of Microtubules in Cancer

Mitotic entry: The interplay between Cdk1, Plk1 and Bora

PIM2 Kinase Is Induced by Cisplatin in Ovarian Cancer Cells and Limits Drug Efficacy

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