Drosophila Checkpoint Kinase 2 Couples Centrosome Function and Spindle Assembly to Genomic Integrity

Takada, Saeko; Kelkar, Anju; Theurkauf, William E.

doi:10.1016/s0092-8674(03)00202-2

Cited by 196 publications

(247 citation statements)

References 35 publications

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“…An increasing number of reports also discuss the potential compartmentalisation of proteins in the context of DNA damage responses Löffer et al, 2006). Centrosomes are becoming key structures of interest, containing an abundance of mitotic control and DNA damage response factors (Takada et al, 2003;Löffer et al, 2006;Jackman et al, 2003;Golsteyn et al, 1995;Tsvetkov et al, 2003). This thesis shows evidence correlating with previous investigations in other systems, in which centrosomes were inactivated as the end-result of DNA damage induced pathways in mitosis (Sibon et al, 2000;Sibon, 2003;Takada et al, 2003;Löffer et al, 2006).…”

Section: Atm and Atr Inhibition Of Xcep63 Regulatory Role In Spindle supporting

confidence: 71%

“…Centrosomes are becoming key structures of interest, containing an abundance of mitotic control and DNA damage response factors (Takada et al, 2003;Löffer et al, 2006;Jackman et al, 2003;Golsteyn et al, 1995;Tsvetkov et al, 2003). This thesis shows evidence correlating with previous investigations in other systems, in which centrosomes were inactivated as the end-result of DNA damage induced pathways in mitosis (Sibon et al, 2000;Sibon, 2003;Takada et al, 2003;Löffer et al, 2006). Furthermore, it is possible that the control of CEP63 centrosome function by ATM and ATR could potentially participate in preventing genomic instability and cellular transformations, in which centrosomes role has been proven (Basto et al, 2008).…”

Section: Atm and Atr Inhibition Of Xcep63 Regulatory Role In Spindle supporting

confidence: 71%

“…In this situation centrosome inactivation occurs after checkpoint failure in response to DNA damage at the point of mitosis onset. These findings were followed by another study in Drosophila embryos, which showed Chk2 dependent destruction of centrosome function induced by the presence of DNA damage (Takada et al, 2003). It is generally thought that defective mitotic cells undergo mitotic catastrophe, which in turn leads to their elimination from the cell population by cell death (Schatten et al, 1999;Roninson et al, 2001).…”

Section: Growing Evidence Of Centrosomal Checkpoints Responding To Dnmentioning

confidence: 85%

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An ATM- and ATR-dependent checkpoint inactivates spindle assembly by targeting CEP63

Smith¹,

Dejsuphong

Balestrini³

et al. 2009

Nat Cell Biol

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The effects of ATM and ATR signalling induced by chromosomal breakage have been described extensively in modulating cell cycle progression up to the onset of mitosis.However, DNA damage checkpoint responses in mitotic cells are not well understood.This thesis reports on the effects of double strand breaks on the progression of mitosis.We found ATM and ATR activation can occur in mitotic Xenopus laevis egg extract and the induction of ATM and ATR by chromosomal breakages inhibits spindle assembly in both Xenopus egg extract and somatic cells. The delay in mitotic progression induced by ATM and ATR was found not to involve major spindle assembly factors activities such as, Cdk1, Plx1 and RCC1/Ran-GTP. However, normal anastral spindles formation around linear DNA coated beads, which can activate ATM and ATR, linked centrosome-driven spindle assembly to ATM and ATR dependent spindle defects. cDNA expression library screening was undertaken to identify novel ATM and ATR targets in this mitotic checkpoint pathway, through which the novel centrosomal protein XCEP63 was identified as a likely candidate. Data obtained from depletion and reconstitution of XCEP63 in Xenopus egg extract established that normal centrosome-driven spindle assembly requires XCEP63. Moreover, ATM and ATR phosphorylates XCEP63 on serine 560 and promotes delocalisation from the centrosome. ATM and ATR inhibition or addition of non-phosphorylable XCEP63 recombinant protein mutated at serine 560 prevents spindle assembly abnormalities.These findings suggest that ATM and ATR regulate mitotic events by targeting XCEP63 and centrosome-dependent spindle assembly. This pathway may provide support for DNA repair processes or regulate cell survival in the presence of mitotic DNA damage. 3

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Section: Atm and Atr Inhibition Of Xcep63 Regulatory Role In Spindle supporting

confidence: 71%

Section: Atm and Atr Inhibition Of Xcep63 Regulatory Role In Spindle supporting

confidence: 71%

Section: Growing Evidence Of Centrosomal Checkpoints Responding To Dnmentioning

confidence: 85%

See 1 more Smart Citation

An ATM- and ATR-dependent checkpoint inactivates spindle assembly by targeting CEP63

Smith¹,

Dejsuphong

Balestrini³

et al. 2009

Nat Cell Biol

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“…En résumé, cette étude récente a permis d'établir un lien inattendu entre le méta-ainsi expliquer, par exemple, l'origine de la perturbation de l'expression de protéines centrosomales en présence de dommages à l'ADN [7,8]. Afin de comprendre plus en détail le mécanisme moléculaire modulant la rétention nucléaire des ARNm induite par Chk2, nous avons focalisé notre attention sur un groupe bien particulier de transcrits, qui codent pour les protéines d'histones.…”

Section: Resultsunclassified

“…De plus, les auteurs ont souligné l'implication dans ce processus de la kinase Chk2, encodée par le gène mnk (maternal nuclear kinase) chez la drosophile. En effet, les embryons mutants pour mnk sont incapables d'induire l'élimination de noyaux défectueux et accumulent des agrégats nucléaires anormaux dans l'épithélium embryonnaire [7,9]. Cependant, les mécanismes moléculaires par lesquels Chk2 module le triage nucléaire et l'inactivation des centrosomes restaient toujours énigmatiques.…”

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Réponse aux dommages à l’ADN durant l’embryogenèse

Iampietro

Lécuyer

2014

Med Sci (Paris)

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Blastoderm Formation and Cellularisation inDrosophila melanogaster

Kotadia

Crest

Tram

et al. 2010

Encyclopedia of Life Sciences

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Immediately following fertilisation in Drosophila and many other arthropods, the embryo undergoes a series of rapid syncytial nuclear divisions. These divisions are driven by maternally supplied components and occur in the absence of zygotic transcription. Unlike typical cell divisions, these divisions alternate between S and M phases, resulting in cell cycles that last only from 10 to 25 min. After four rounds of division, the nuclei undergo axial expansion, a process that relies on microfilaments. Subsequently migration of the nuclei to the cortex relies on microtubules. Once at the cortex, the nuclear divisions occur on a single plane and rely on partial cleavage furrows to maintain an even distribution. The cortical nuclear divisions continue until the mid‐blastula transition (MBT), at which time cellularisation results in the formation of a multicellular embryo. Key Concepts: Fertilisation triggers a series of events that induces the first mitotic cycle, a gonomeric division between the male and female pronucleus. After fertilisation, the embryo undergoes 13 synchronous divisions within a syncytium. Divisions 10–13 occur at the cortex of the embryo and require reorganisation of actin and membrane into metaphase furrows. At cycle 14, the cell cycle pauses and cellularisation occurs forming individual somatic cells. Cellularisation, a key feature of the mid‐blastula transition, marks the time at which zygotic transcription occurs and maternal products are degraded.

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Drosophila Checkpoint Kinase 2 Couples Centrosome Function and Spindle Assembly to Genomic Integrity

Cited by 196 publications

References 35 publications

An ATM- and ATR-dependent checkpoint inactivates spindle assembly by targeting CEP63

An ATM- and ATR-dependent checkpoint inactivates spindle assembly by targeting CEP63

Réponse aux dommages à l’ADN durant l’embryogenèse

Blastoderm Formation and Cellularisation inDrosophila melanogaster

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