FANCD2-dependent mitotic DNA synthesis relies on PCNA K164 ubiquitination

Wendy Leung; Ryan M. Baxley; Emma Traband; Ya Chu Chang; Colette B. Rogers; Liangjun Wang; Wesley Durrett; Kendall S. Bromley; Lidia Fiedorowicz; Tanay Thakar; Anika Tella; Alexandra Sobeck; Eric A. Hendrickson; George Lucian Moldovan; Naoko Shima; Anja Katrin Bielinsky

doi:10.1016/j.celrep.2023.113523

FANCD2-dependent mitotic DNA synthesis relies on PCNA K164 ubiquitination

Wendy Leung, Ryan M. Baxley, Emma Traband, Ya Chu Chang, Colette B. Rogers, Liangjun Wang, Wesley Durrett, Kendall S. Bromley, Lidia Fiedorowicz, Tanay Thakar, Anika Tella, Alexandra Sobeck, Eric A. Hendrickson, George Lucian Moldovan, Naoko Shima, Anja Katrin Bielinsky

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

Abstract

Ubiquitination of proliferating cell nuclear antigen (PCNA) at lysine 164 (K164) activates DNA damage tolerance pathways. Currently, we lack a comprehensive understanding of how PCNA K164 ubiquitination promotes genome stability. To evaluate this, we generated stable cell lines expressing PCNA^K164R from the endogenous PCNA locus. Our data reveal that the inability to ubiquitinate K164 causes perturbations in global DNA replication. Persistent replication stress generates under-replicated regions and is exacerbated by the DNA polymerase inhibitor aphidicolin. We show that these phenotypes are due, in part, to impaired Fanconi anemia group D2 protein (FANCD2)-dependent mitotic DNA synthesis (MiDAS) in PCNA^K164R cells. FANCD2 mono-ubiquitination is significantly reduced in PCNA^K164R mutants, leading to reduced chromatin association and foci formation, both prerequisites for FANCD2-dependent MiDAS. Furthermore, K164 ubiquitination coordinates direct PCNA/FANCD2 colocalization in mitotic nuclei. Here, we show that PCNA K164 ubiquitination maintains human genome stability by promoting FANCD2-dependent MiDAS to prevent the accumulation of under-replicated DNA.

Original language	English (US)
Article number	113523
Journal	Cell reports
Volume	42
Issue number	12
DOIs	https://doi.org/10.1016/j.celrep.2023.113523
State	Published - Dec 26 2023

Bibliographical note

Publisher Copyright:
© 2023 The Author(s)

Keywords

CP: Molecular biology
FANCD2
MiDAS
PCNA
replication stress
ubiquitination

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Leung, W., Baxley, R. M., Traband, E., Chang, Y. C., Rogers, C. B., Wang, L., Durrett, W., Bromley, K. S., Fiedorowicz, L., Thakar, T., Tella, A., Sobeck, A., Hendrickson, E. A., Moldovan, G. L., Shima, N., & Bielinsky, A. K. (2023). FANCD2-dependent mitotic DNA synthesis relies on PCNA K164 ubiquitination. Cell reports, 42(12), Article 113523. https://doi.org/10.1016/j.celrep.2023.113523

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title = "FANCD2-dependent mitotic DNA synthesis relies on PCNA K164 ubiquitination",

abstract = "Ubiquitination of proliferating cell nuclear antigen (PCNA) at lysine 164 (K164) activates DNA damage tolerance pathways. Currently, we lack a comprehensive understanding of how PCNA K164 ubiquitination promotes genome stability. To evaluate this, we generated stable cell lines expressing PCNAK164R from the endogenous PCNA locus. Our data reveal that the inability to ubiquitinate K164 causes perturbations in global DNA replication. Persistent replication stress generates under-replicated regions and is exacerbated by the DNA polymerase inhibitor aphidicolin. We show that these phenotypes are due, in part, to impaired Fanconi anemia group D2 protein (FANCD2)-dependent mitotic DNA synthesis (MiDAS) in PCNAK164R cells. FANCD2 mono-ubiquitination is significantly reduced in PCNAK164R mutants, leading to reduced chromatin association and foci formation, both prerequisites for FANCD2-dependent MiDAS. Furthermore, K164 ubiquitination coordinates direct PCNA/FANCD2 colocalization in mitotic nuclei. Here, we show that PCNA K164 ubiquitination maintains human genome stability by promoting FANCD2-dependent MiDAS to prevent the accumulation of under-replicated DNA.",

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author = "Wendy Leung and Baxley, {Ryan M.} and Emma Traband and Chang, {Ya Chu} and Rogers, {Colette B.} and Liangjun Wang and Wesley Durrett and Bromley, {Kendall S.} and Lidia Fiedorowicz and Tanay Thakar and Anika Tella and Alexandra Sobeck and Hendrickson, {Eric A.} and Moldovan, {George Lucian} and Naoko Shima and Bielinsky, {Anja Katrin}",

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AU - Leung, Wendy

AU - Baxley, Ryan M.

AU - Traband, Emma

AU - Chang, Ya Chu

AU - Rogers, Colette B.

AU - Wang, Liangjun

AU - Durrett, Wesley

AU - Bromley, Kendall S.

AU - Fiedorowicz, Lidia

AU - Thakar, Tanay

AU - Tella, Anika

AU - Sobeck, Alexandra

AU - Hendrickson, Eric A.

AU - Moldovan, George Lucian

AU - Shima, Naoko

AU - Bielinsky, Anja Katrin

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AB - Ubiquitination of proliferating cell nuclear antigen (PCNA) at lysine 164 (K164) activates DNA damage tolerance pathways. Currently, we lack a comprehensive understanding of how PCNA K164 ubiquitination promotes genome stability. To evaluate this, we generated stable cell lines expressing PCNAK164R from the endogenous PCNA locus. Our data reveal that the inability to ubiquitinate K164 causes perturbations in global DNA replication. Persistent replication stress generates under-replicated regions and is exacerbated by the DNA polymerase inhibitor aphidicolin. We show that these phenotypes are due, in part, to impaired Fanconi anemia group D2 protein (FANCD2)-dependent mitotic DNA synthesis (MiDAS) in PCNAK164R cells. FANCD2 mono-ubiquitination is significantly reduced in PCNAK164R mutants, leading to reduced chromatin association and foci formation, both prerequisites for FANCD2-dependent MiDAS. Furthermore, K164 ubiquitination coordinates direct PCNA/FANCD2 colocalization in mitotic nuclei. Here, we show that PCNA K164 ubiquitination maintains human genome stability by promoting FANCD2-dependent MiDAS to prevent the accumulation of under-replicated DNA.

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FANCD2-dependent mitotic DNA synthesis relies on PCNA K164 ubiquitination

Abstract

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Keywords

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