The Substrate of Greatwall Kinase, Arpp19, Controls Mitosis by Inhibiting Protein Phosphatase 2A

Gharbi-Ayachi, Aicha; Labbé, Jean‐Claude; Burgess, Andrew; Vigneron, Suzanne; Strub, Jean‐Marc; Brioudes, Estelle; Van-Dorsselaer, Alain; Castro, Anna; Lorca, Thierry

doi:10.1126/science.1197048

Cited by 384 publications

(553 citation statements)

References 16 publications

(6 reference statements)

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“…The radiosensitizing effect of MASTL knockdown did not seem to be driven by ENSA, the currently known substrate for MASTL (22,33), as we could not confirm an altered phosphorylation state of this protein after MASTL knockdown. Our phosphoproteomics analysis further suggests that the initial phosphorylation of DNA damage response proteins is not altered in irradiated cells with lowered MASTL expression.…”

Section: Discussioncontrasting

confidence: 56%

Genome-wide siRNA Screen Identifies the Radiosensitizing Effect of Downregulation of MASTL and FOXM1 in NSCLC

Nagel

Walsum

Buijze

et al. 2015

Molecular Cancer Therapeutics

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Lung cancer is the most common cancer worldwide and on top of that has a very poor prognosis, which is reflected by a 5-year survival rate of 5% to 15%. Radiotherapy is an integral part of most treatment regimens for this type of tumor, often combined with radiosensitizing cytotoxic drugs. In this study, we identified many genes that could potentially be exploited for targeted radiosensitization using a genome-wide siRNA screen in non-small cell lung cancer (NSCLC) cells. The screen identified 433 siRNAs that potentially sensitize lung cancer cells to radiation. Validation experiments showed that knockdown of expression of Forkhead box M1 (FOXM1) or microtubuleassociated serine/threonine kinase-like (MASTL) indeed causes radiosensitization in a panel of NSCLC cells. Strikingly, this effect was not observed in primary human fibroblasts, suggesting that the observed radiosensitization is specific for cancer cells. Phosphoproteomics analyses with and without irradiation showed that a number of cell-cycle-related proteins were significantly less phosphorylated after MASTL knockdown in comparison to the control, while there were no changes in the levels of phosphorylation of DNA damage response proteins. Subsequent analyses showed that MASTL knockdown cells respond differently to radiation, with a significantly shortened G 2 -M phase arrest and defects in cytokinesis, which are followed by a cell-cycle arrest. In summary, we have identified many potential therapeutic targets that could be used for radiosensitization of NSCLC cells, with MASTL being a very promising and druggable target to combine with radiotherapy.

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Section: Discussioncontrasting

confidence: 56%

Genome-wide siRNA Screen Identifies the Radiosensitizing Effect of Downregulation of MASTL and FOXM1 in NSCLC

Nagel

Walsum

Buijze

et al. 2015

Molecular Cancer Therapeutics

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“…In particular, PP2A is regulated by Greatwall kinase (called microtubule-associated serine/threonine kinase-like [Mastl] in mammals), which when depleted is associated with severe mitotic defects. 21,22 Greatwall has been shown to inhibit PP2A via the small proteins, a-endosulphine (ENSA) and cyclic AMP-regulated phosphoprotein 19 (ARPP19), 23,24 relieving PP2A-mediated dephosphorylation of various Cdk1 substrates and promoting mitotic progression. 25,26 PP2A also negatively regulates Cdk1 through activating wee1 and myt1 and inhibiting cdc25 through dephosphorylation.…”

Section: Inhibition Of Wnt/beta-catenin Signalingmentioning

confidence: 99%

LB100, a small molecule inhibitor of PP2A with potent chemo- and radio-sensitizing potential

Zhang

et al. 2015

Cancer Biology & Therapy

103

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“…PP2A:B55δ activity is indirectly repressed by Cdk1:CycB, which could account for the slow rate of APC/C dephosphorylation in M phase required by Ciliberto's model. Other data suggest roles for PP2A:B55δ in Wee1 activation and Cdc25 inactivation (27,29,30). Altogether, these data suggest an active role for PP2A:B55δ in the control of entry into and exit from mitosis.…”

Section: Significancementioning

confidence: 79%

Role for regulated phosphatase activity in generating mitotic oscillations in Xenopus cell-free extracts

Zhang

Tyson

Novák

2013

Proc. Natl. Acad. Sci. U.S.A.

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Although current textbook explanations of cell-cycle control in eukaryotes emphasize the periodic activation of cyclin-dependent protein kinases (CDKs), recent experimental observations suggest a significant role for the periodic activation and inactivation of a CDK-counteracting protein phosphatase 2A with a B55δ subunit (PP2A:B55δ), during mitotic cycles in frog-egg extracts and early embryos. In this paper, we extend an earlier mathematical model of embryonic cell cycles to include experimentally motivated roles for PP2A:B55δ and its regulation by Greatwall kinase. Our model is consistent with what is already known about the regulation of CDK and PP2A:B55δ in frog eggs, and it suggests a previously undescribed role for the Greatwall-PP2A:B55δ interaction in creating a toggle switch for activation of the anaphase-promoting complex as embryonic cells exit mitosis and return to interphase. mitotic control | bistability | hysteresis

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The Substrate of Greatwall Kinase, Arpp19, Controls Mitosis by Inhibiting Protein Phosphatase 2A

Cited by 384 publications

References 16 publications

Genome-wide siRNA Screen Identifies the Radiosensitizing Effect of Downregulation of MASTL and FOXM1 in NSCLC

Genome-wide siRNA Screen Identifies the Radiosensitizing Effect of Downregulation of MASTL and FOXM1 in NSCLC

LB100, a small molecule inhibitor of PP2A with potent chemo- and radio-sensitizing potential

Role for regulated phosphatase activity in generating mitotic oscillations in Xenopus cell-free extracts

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