A balanced pyrimidine pool is required for optimal Chk1 activation to prevent ultrafine anaphase bridge formation

Cytidine deaminase (CDA) deficiency induces an excess of cellular dCTP, which reduces basal PARP-1 activity, thereby compromising complete DNA replication, leading to ultrafine anaphase bridge (UFB) formation. CDA dysfunction has pathological implications, notably in cancer and in Bloom syndrome. It...

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Veröffentlicht in:	Journal of cell science 2016-08, Vol.129 (16), p.3167-3177
Hauptverfasser:	Gemble, Simon, Buhagiar-Labarchède, Géraldine, Onclercq-Delic, Rosine, Biard, Denis, Lambert, Sarah, Amor-Guéret, Mounira
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Sprache:	eng
Schlagworte:	Anaphase Ataxia Telangiectasia Mutated Proteins - metabolism Cell Cycle Checkpoints Cellular Biology Checkpoint Kinase 1 - metabolism Cytidine Deaminase - metabolism DNA Damage DNA Replication Enzyme Activation HeLa Cells Humans Life Sciences Models, Biological Poly(ADP-ribose) Polymerases - metabolism Pyrimidines - metabolism S Phase
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container_title	Journal of cell science
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creator	Gemble, Simon Buhagiar-Labarchède, Géraldine Onclercq-Delic, Rosine Biard, Denis Lambert, Sarah Amor-Guéret, Mounira
description	Cytidine deaminase (CDA) deficiency induces an excess of cellular dCTP, which reduces basal PARP-1 activity, thereby compromising complete DNA replication, leading to ultrafine anaphase bridge (UFB) formation. CDA dysfunction has pathological implications, notably in cancer and in Bloom syndrome. It remains unknown how reduced levels of PARP-1 activity and pyrimidine pool imbalance lead to the accumulation of unreplicated DNA during mitosis. We report that a decrease in PARP-1 activity in CDA-deficient cells impairs DNA-damage-induced Chk1 activation, and, thus, the downstream checkpoints. Chemical inhibition of the ATR-Chk1 pathway leads to UFB accumulation, and we found that this pathway was compromised in CDA-deficient cells. Our data demonstrate that ATR-Chk1 acts downstream from PARP-1, preventing the accumulation of unreplicated DNA in mitosis, and, thus, UFB formation. Finally, delaying entry into mitosis is sufficient to prevent UFB formation in both CDA-deficient and CDA-proficient cells, suggesting that both physiological and pathological UFBs are derived from unreplicated DNA. Our findings demonstrate an unsuspected requirement for a balanced nucleotide pool for optimal Chk1 activation both in unchallenged cells and in response to genotoxic stress.
doi_str_mv	10.1242/jcs.187781
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CDA dysfunction has pathological implications, notably in cancer and in Bloom syndrome. It remains unknown how reduced levels of PARP-1 activity and pyrimidine pool imbalance lead to the accumulation of unreplicated DNA during mitosis. We report that a decrease in PARP-1 activity in CDA-deficient cells impairs DNA-damage-induced Chk1 activation, and, thus, the downstream checkpoints. Chemical inhibition of the ATR-Chk1 pathway leads to UFB accumulation, and we found that this pathway was compromised in CDA-deficient cells. Our data demonstrate that ATR-Chk1 acts downstream from PARP-1, preventing the accumulation of unreplicated DNA in mitosis, and, thus, UFB formation. Finally, delaying entry into mitosis is sufficient to prevent UFB formation in both CDA-deficient and CDA-proficient cells, suggesting that both physiological and pathological UFBs are derived from unreplicated DNA. Our findings demonstrate an unsuspected requirement for a balanced nucleotide pool for optimal Chk1 activation both in unchallenged cells and in response to genotoxic stress.</description><identifier>ISSN: 0021-9533</identifier><identifier>EISSN: 1477-9137</identifier><identifier>DOI: 10.1242/jcs.187781</identifier><identifier>PMID: 27383768</identifier><language>eng</language><publisher>England: Company of Biologists</publisher><subject>Anaphase ; Ataxia Telangiectasia Mutated Proteins - metabolism ; Cell Cycle Checkpoints ; Cellular Biology ; Checkpoint Kinase 1 - metabolism ; Cytidine Deaminase - metabolism ; DNA Damage ; DNA Replication ; Enzyme Activation ; HeLa Cells ; Humans ; Life Sciences ; Models, Biological ; Poly(ADP-ribose) Polymerases - metabolism ; Pyrimidines - metabolism ; S Phase</subject><ispartof>Journal of cell science, 2016-08, Vol.129 (16), p.3167-3177</ispartof><rights>2016. 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subjects	Anaphase Ataxia Telangiectasia Mutated Proteins - metabolism Cell Cycle Checkpoints Cellular Biology Checkpoint Kinase 1 - metabolism Cytidine Deaminase - metabolism DNA Damage DNA Replication Enzyme Activation HeLa Cells Humans Life Sciences Models, Biological Poly(ADP-ribose) Polymerases - metabolism Pyrimidines - metabolism S Phase
title	A balanced pyrimidine pool is required for optimal Chk1 activation to prevent ultrafine anaphase bridge formation
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