DNA catenations that link sister chromatids until the onset of anaphase are maintained by a checkpoint mechanism

Juan F. Giménez-Abián; Duncan J. Clarke; Gonzalo Giménez-Martín; Magdalena Weingartner; M. Inmaculada Giménez-Abián; Jesús A. Carballo; Susana Moreno Díaz de la Espina; László Bögre; Consuelo De la Torre

doi:10.1078/0171-9335-00226

DNA catenations that link sister chromatids until the onset of anaphase are maintained by a checkpoint mechanism

Juan F. Giménez-Abián, Duncan J. Clarke, Gonzalo Giménez-Martín, Magdalena Weingartner, M. Inmaculada Giménez-Abián, Jesús A. Carballo, Susana Moreno Díaz de la Espina, László Bögre, Consuelo De la Torre

Genetics, Cell Biology and Development (TMED)

Research output: Contribution to journal › Article › peer-review

19 Scopus citations

Abstract

Treatment of Allium cepa meristematic cells in metaphase with the topoisomerase II inhibitor ICRF-193, results in bridging of the sister chromatids at anaphase. Separation of the sisters in experimentally generated acentric chromosomal fragments was also inhibited by ICRF-193, indicating that some non-centromeric catenations also persist in metaphase chromosomes. Thus, catenations must be resolved by DNA topoisomerase II at the metaphase-to-anaphase transition to allow segregation of sisters. A passive mechanism could maintain catenations holding sisters until the onset of anaphase. At this point the opposite tension exerted on sister chromatids could render the decatenation reaction physically more favorable than catenation. But this possibility was dismissed as acentric chromosome fragments were able to separate their sister chromatids at anaphase. A timing mechanism (a common trigger for two processes taking different times to be completed) could passively couple the resolution of the last remaining catenations to the moment of anaphase onset. This possibility was also discarded as cells arrested in metaphase with microtubule-destabilising drugs still displayed anaphase bridges when released in the presence of ICRF-193. It is possible that a checkpoint mechanism prevents the release of the last catenations linking sisters until the onset of anaphase. To test whether cells are competent to fully resolve catenations before anaphase onset, we generated multinucleate plant cells. In this system, the nuclei within a single multinucleate cell displayed differences in chromosome condensation at metaphase, but initiated anaphase synchronously. When multinucleates were treated with ICRF-193 at the metaphase-to-anaphase transition, tangled and untangled anaphases were observed within the same cell. This can only occur if cells are competent to disentangle sister chromatids before the onset of anaphase, but are prevented from doing so by a checkpoint mechanism.

Original language	English (US)
Pages (from-to)	9-16
Number of pages	8
Journal	European Journal of Cell Biology
Volume	81
Issue number	1
DOIs	https://doi.org/10.1078/0171-9335-00226
State	Published - 2002

Bibliographical note

Funding Information:
Acknowledgements. We would like to acknowledge Mr. J. L. Marcilla for his skilful photographic work and Ms. M. Carrascosa for technical assistance. We are most grateful to Dr. A. Creighton for generous gift of ICRF-193. We thank Dr. P. Herna¬ndez for valuable suggestions on the evaluation of the separation of sisters in acentric fragments and Dr. Fatima Cvrckova¬ for critical reading of the manuscript. We also thank the Comunidad Auto¬noma de Madrid and EMBO for grants supporting J. F. Gime¬nez-Abia¬n and D. J. Clarke, respectively; and to the European Union (Project BIO4-CT96 ± 0275).

Keywords

Anaphase
Checkpoint
DNA catenations
Sister chromatid cohesion
Topoisomerase II

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Giménez-Abián, J. F., Clarke, D. J., Giménez-Martín, G., Weingartner, M., Inmaculada Giménez-Abián, M., Carballo, J. A., Moreno Díaz de la Espina, S., Bögre, L., & De la Torre, C. (2002). DNA catenations that link sister chromatids until the onset of anaphase are maintained by a checkpoint mechanism. European Journal of Cell Biology, 81(1), 9-16. https://doi.org/10.1078/0171-9335-00226

Giménez-Abián, JF, Clarke, DJ, Giménez-Martín, G, Weingartner, M, Inmaculada Giménez-Abián, M, Carballo, JA, Moreno Díaz de la Espina, S, Bögre, L & De la Torre, C 2002, 'DNA catenations that link sister chromatids until the onset of anaphase are maintained by a checkpoint mechanism', European Journal of Cell Biology, vol. 81, no. 1, pp. 9-16. https://doi.org/10.1078/0171-9335-00226

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abstract = "Treatment of Allium cepa meristematic cells in metaphase with the topoisomerase II inhibitor ICRF-193, results in bridging of the sister chromatids at anaphase. Separation of the sisters in experimentally generated acentric chromosomal fragments was also inhibited by ICRF-193, indicating that some non-centromeric catenations also persist in metaphase chromosomes. Thus, catenations must be resolved by DNA topoisomerase II at the metaphase-to-anaphase transition to allow segregation of sisters. A passive mechanism could maintain catenations holding sisters until the onset of anaphase. At this point the opposite tension exerted on sister chromatids could render the decatenation reaction physically more favorable than catenation. But this possibility was dismissed as acentric chromosome fragments were able to separate their sister chromatids at anaphase. A timing mechanism (a common trigger for two processes taking different times to be completed) could passively couple the resolution of the last remaining catenations to the moment of anaphase onset. This possibility was also discarded as cells arrested in metaphase with microtubule-destabilising drugs still displayed anaphase bridges when released in the presence of ICRF-193. It is possible that a checkpoint mechanism prevents the release of the last catenations linking sisters until the onset of anaphase. To test whether cells are competent to fully resolve catenations before anaphase onset, we generated multinucleate plant cells. In this system, the nuclei within a single multinucleate cell displayed differences in chromosome condensation at metaphase, but initiated anaphase synchronously. When multinucleates were treated with ICRF-193 at the metaphase-to-anaphase transition, tangled and untangled anaphases were observed within the same cell. This can only occur if cells are competent to disentangle sister chromatids before the onset of anaphase, but are prevented from doing so by a checkpoint mechanism.",

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author = "Gim{\'e}nez-Abi{\'a}n, {Juan F.} and Clarke, {Duncan J.} and Gonzalo Gim{\'e}nez-Mart{\'i}n and Magdalena Weingartner and {Inmaculada Gim{\'e}nez-Abi{\'a}n}, M. and Carballo, {Jes{\'u}s A.} and {Moreno D{\'i}az de la Espina}, Susana and L{\'a}szl{\'o} B{\"o}gre and {De la Torre}, Consuelo",

note = "Funding Information: Acknowledgements. We would like to acknowledge Mr. J. L. Marcilla for his skilful photographic work and Ms. M. Carrascosa for technical assistance. We are most grateful to Dr. A. Creighton for generous gift of ICRF-193. We thank Dr. P. Herna¬ndez for valuable suggestions on the evaluation of the separation of sisters in acentric fragments and Dr. Fatima Cvrckova¬ for critical reading of the manuscript. We also thank the Comunidad Auto¬noma de Madrid and EMBO for grants supporting J. F. Gime¬nez-Abia¬n and D. J. Clarke, respectively; and to the European Union (Project BIO4-CT96 ± 0275).",

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AU - Giménez-Abián, Juan F.

AU - Clarke, Duncan J.

AU - Giménez-Martín, Gonzalo

AU - Weingartner, Magdalena

AU - Inmaculada Giménez-Abián, M.

AU - Carballo, Jesús A.

AU - Moreno Díaz de la Espina, Susana

AU - Bögre, László

AU - De la Torre, Consuelo

N1 - Funding Information: Acknowledgements. We would like to acknowledge Mr. J. L. Marcilla for his skilful photographic work and Ms. M. Carrascosa for technical assistance. We are most grateful to Dr. A. Creighton for generous gift of ICRF-193. We thank Dr. P. Herna¬ndez for valuable suggestions on the evaluation of the separation of sisters in acentric fragments and Dr. Fatima Cvrckova¬ for critical reading of the manuscript. We also thank the Comunidad Auto¬noma de Madrid and EMBO for grants supporting J. F. Gime¬nez-Abia¬n and D. J. Clarke, respectively; and to the European Union (Project BIO4-CT96 ± 0275).

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N2 - Treatment of Allium cepa meristematic cells in metaphase with the topoisomerase II inhibitor ICRF-193, results in bridging of the sister chromatids at anaphase. Separation of the sisters in experimentally generated acentric chromosomal fragments was also inhibited by ICRF-193, indicating that some non-centromeric catenations also persist in metaphase chromosomes. Thus, catenations must be resolved by DNA topoisomerase II at the metaphase-to-anaphase transition to allow segregation of sisters. A passive mechanism could maintain catenations holding sisters until the onset of anaphase. At this point the opposite tension exerted on sister chromatids could render the decatenation reaction physically more favorable than catenation. But this possibility was dismissed as acentric chromosome fragments were able to separate their sister chromatids at anaphase. A timing mechanism (a common trigger for two processes taking different times to be completed) could passively couple the resolution of the last remaining catenations to the moment of anaphase onset. This possibility was also discarded as cells arrested in metaphase with microtubule-destabilising drugs still displayed anaphase bridges when released in the presence of ICRF-193. It is possible that a checkpoint mechanism prevents the release of the last catenations linking sisters until the onset of anaphase. To test whether cells are competent to fully resolve catenations before anaphase onset, we generated multinucleate plant cells. In this system, the nuclei within a single multinucleate cell displayed differences in chromosome condensation at metaphase, but initiated anaphase synchronously. When multinucleates were treated with ICRF-193 at the metaphase-to-anaphase transition, tangled and untangled anaphases were observed within the same cell. This can only occur if cells are competent to disentangle sister chromatids before the onset of anaphase, but are prevented from doing so by a checkpoint mechanism.

AB - Treatment of Allium cepa meristematic cells in metaphase with the topoisomerase II inhibitor ICRF-193, results in bridging of the sister chromatids at anaphase. Separation of the sisters in experimentally generated acentric chromosomal fragments was also inhibited by ICRF-193, indicating that some non-centromeric catenations also persist in metaphase chromosomes. Thus, catenations must be resolved by DNA topoisomerase II at the metaphase-to-anaphase transition to allow segregation of sisters. A passive mechanism could maintain catenations holding sisters until the onset of anaphase. At this point the opposite tension exerted on sister chromatids could render the decatenation reaction physically more favorable than catenation. But this possibility was dismissed as acentric chromosome fragments were able to separate their sister chromatids at anaphase. A timing mechanism (a common trigger for two processes taking different times to be completed) could passively couple the resolution of the last remaining catenations to the moment of anaphase onset. This possibility was also discarded as cells arrested in metaphase with microtubule-destabilising drugs still displayed anaphase bridges when released in the presence of ICRF-193. It is possible that a checkpoint mechanism prevents the release of the last catenations linking sisters until the onset of anaphase. To test whether cells are competent to fully resolve catenations before anaphase onset, we generated multinucleate plant cells. In this system, the nuclei within a single multinucleate cell displayed differences in chromosome condensation at metaphase, but initiated anaphase synchronously. When multinucleates were treated with ICRF-193 at the metaphase-to-anaphase transition, tangled and untangled anaphases were observed within the same cell. This can only occur if cells are competent to disentangle sister chromatids before the onset of anaphase, but are prevented from doing so by a checkpoint mechanism.

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KW - Sister chromatid cohesion

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DNA catenations that link sister chromatids until the onset of anaphase are maintained by a checkpoint mechanism

Abstract

Bibliographical note

Keywords

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