Phosphorylation of PLK3 Is Controlled by Protein Phosphatase 6

Perez, Cecilia Aquino; Palek, Matous; Morgen, Patrick von; Macůrek, Libor

doi:10.3390/cells9061506

Cited by 11 publications

(11 citation statements)

References 51 publications

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“…The phosphorylation of CHK2 T68 has been frequently used as a marker of ATM activation [ 46 ], but T68 could be phosphorylated also by ATR in vitro [ 37 ] and by the DNA-dependent protein kinase catalytic subunit (PRKDC, alias DNA-PKcs) during mitosis [ 47 ]. Other CHK2 phosphorylation sites have been described as the targets of other kinases including polo-like kinase 3 (PLK3) [ 48 , 49 ] or PLK1 [ 50 , 51 ]. PLK3 phosphorylated S62 and S73 in vitro and was proposed to facilitate subsequent phosphorylation on T68 by ATM; however, this possibility has recently been challenged when no impact of PLK3 on checkpoint activation was found [ 48 ].…”

Section: Structure and Function Of Chk2 Kinasementioning

confidence: 99%

“…Other CHK2 phosphorylation sites have been described as the targets of other kinases including polo-like kinase 3 (PLK3) [ 48 , 49 ] or PLK1 [ 50 , 51 ]. PLK3 phosphorylated S62 and S73 in vitro and was proposed to facilitate subsequent phosphorylation on T68 by ATM; however, this possibility has recently been challenged when no impact of PLK3 on checkpoint activation was found [ 48 ]. PLK1 in a complex with TP53-binding protein 1 (53BP1) phosphorylates CHK2 on S164, T205, and S210 to prevent its activation in mitosis, with S164 phosphorylation showing the greatest effect.…”

Section: Structure and Function Of Chk2 Kinasementioning

confidence: 99%

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CHEK2 Germline Variants in Cancer Predisposition: Stalemate Rather than Checkmate

Stolařová

Kleiblová

Janatová

et al. 2020

Cells

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110

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Germline alterations in many genes coding for proteins regulating DNA repair and DNA damage response (DDR) to DNA double-strand breaks (DDSB) have been recognized as pathogenic factors in hereditary cancer predisposition. The ATM-CHEK2-p53 axis has been documented as a backbone for DDR and hypothesized as a barrier against cancer initiation. However, although CHK2 kinase coded by the CHEK2 gene expedites the DDR signal, its function in activation of p53-dependent cell cycle arrest is dispensable. CHEK2 mutations rank among the most frequent germline alterations revealed by germline genetic testing for various hereditary cancer predispositions, but their interpretation is not trivial. From the perspective of interpretation of germline CHEK2 variants, we review the current knowledge related to the structure of the CHEK2 gene, the function of CHK2 kinase, and the clinical significance of CHEK2 germline mutations in patients with hereditary breast, prostate, kidney, thyroid, and colon cancers.

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Section: Structure and Function Of Chk2 Kinasementioning

confidence: 99%

Section: Structure and Function Of Chk2 Kinasementioning

confidence: 99%

CHEK2 Germline Variants in Cancer Predisposition: Stalemate Rather than Checkmate

Stolařová

Kleiblová

Janatová

et al. 2020

Cells

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110

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“…The protein is very stable (reviewed by [ 26 ]). PLK3 is enriched at the plasmalemma and at Golgi membranes [ 71 , 72 ], reviewed by [ 73 ], possibly involved in the modulation of cellular adhesion and in intracellular trafficking [ 71 ]. Importantly, PLK3 participates in the Fas ligand-induced pathway of apoptosis [ 74 ], reviewed by [ 72 ].…”

Section: Polo-like Kinases and Their Physiological Functionsmentioning

confidence: 99%

“…PLK3 is enriched at the plasmalemma and at Golgi membranes [ 71 , 72 ], reviewed by [ 73 ], possibly involved in the modulation of cellular adhesion and in intracellular trafficking [ 71 ]. Importantly, PLK3 participates in the Fas ligand-induced pathway of apoptosis [ 74 ], reviewed by [ 72 ]. Supposed roles for the progression of the cell cycle, namely entry into S phase are questioned [ 69 , 75 ] whereas PLK3 has been shown to participate in G2/M transition through interaction with cell division cycle Cdc25C protein phosphatase [ 76 ].…”

Section: Polo-like Kinases and Their Physiological Functionsmentioning

confidence: 99%

“…Supposed roles for the progression of the cell cycle, namely entry into S phase are questioned [ 69 , 75 ] whereas PLK3 has been shown to participate in G2/M transition through interaction with cell division cycle Cdc25C protein phosphatase [ 76 ]. PLK3 has been reported to function in the mediation of cellular response including cell cycle checkpoint activation [ 77 , 78 ] after various forms of stress including hypoxic, DNA damage and osmotic stress [ 79 , 80 ], for reviews see [ 47 , 72 ]. Results from Plk3 -knockout and its inactivation, however, argue against significant roles in cellular stress response [ 73 ].…”

Section: Polo-like Kinases and Their Physiological Functionsmentioning

confidence: 99%

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Modelling the Functions of Polo-Like Kinases in Mice and Their Applications as Cancer Targets with a Special Focus on Ovarian Cancer

Kressin

Fietz

Becker

et al. 2021

Cells

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Polo-like kinases (PLKs) belong to a five-membered family of highly conserved serine/threonine kinases (PLK1-5) that play differentiated and essential roles as key mitotic kinases and cell cycle regulators and with this in proliferation and cellular growth. Besides, evidence is accumulating for complex and vital non-mitotic functions of PLKs. Dysregulation of PLKs is widely associated with tumorigenesis and by this, PLKs have gained increasing significance as attractive targets in cancer with diagnostic, prognostic and therapeutic potential. PLK1 has proved to have strong clinical relevance as it was found to be over-expressed in different cancer types and linked to poor patient prognosis. Targeting the diverse functions of PLKs (tumor suppressor, oncogenic) are currently at the center of numerous investigations in particular with the inhibition of PLK1 and PLK4, respectively in multiple cancer trials. Functions of PLKs and the effects of their inhibition have been extensively studied in cancer cell culture models but information is rare on how these drugs affect benign tissues and organs. As a step further towards clinical application as cancer targets, mouse models therefore play a central role. Modelling PLK function in animal models, e.g., by gene disruption or by treatment with small molecule PLK inhibitors offers promising possibilities to unveil the biological significance of PLKs in cancer maintenance and progression and give important information on PLKs’ applicability as cancer targets. In this review we aim at summarizing the approaches of modelling PLK function in mice so far with a special glimpse on the significance of PLKs in ovarian cancer and of orthotopic cancer models used in this fatal malignancy.

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TUBA1A licenses APC/C‐mediated mitotic progression to drive glioblastoma growth by inhibiting PLK3

Wen,

Wang,

Zhang

et al. 2023

FEBS Letters

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Glioblastoma (GBM) is the most common, aggressive, and chemorefractory primary brain tumor in adults. Identifying novel drug targets is crucial for GBM treatment. Here, we demonstrate that tubulin alpha 1a (TUBA1A) is significantly upregulated in GBM compared to low‐grade gliomas (LGG) and normal tissues. High TUBA1A expression is associated with poor survival in GBM patients. TUBA1A knockdown results in mitotic arrest and reduces tumor growth in mice. TUBA1A interacts with the polo‐like kinase 3 (PLK3) in the cytoplasm to inhibit its activation. This interaction licenses activation of the anaphase‐promoting complex or cyclosome (APC/C) to ensure proper Foxm1‐mediated metaphase‐to‐anaphase transition and mitotic exit. Overall, our findings demonstrate that targeting TUBA1A attenuates GBM cell growth by suppressing mitotic progression in a PLK3‐dependent manner.

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Phosphorylation of PLK3 Is Controlled by Protein Phosphatase 6

Cited by 11 publications

References 51 publications

CHEK2 Germline Variants in Cancer Predisposition: Stalemate Rather than Checkmate

CHEK2 Germline Variants in Cancer Predisposition: Stalemate Rather than Checkmate

Modelling the Functions of Polo-Like Kinases in Mice and Their Applications as Cancer Targets with a Special Focus on Ovarian Cancer

TUBA1A licenses APC/C‐mediated mitotic progression to drive glioblastoma growth by inhibiting PLK3

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