The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ

Kouji Hirota; Kazunori Yoshikiyo; Guillaume Guilbaud; Toshiki Tsurimoto; Junko Murai; Masataka Tsuda; Lara G. Phillips; Takeo Narita; Kana Nishihara; Kaori Kobayashi; Kouich Yamada; Jun Nakamura; Yves Pommier; Alan Lehmann; Julian E. Sale; Shunichi Takeda

doi:10.1093/nar/gkv023

The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ

Kouji Hirota, Kazunori Yoshikiyo, Guillaume Guilbaud, Toshiki Tsurimoto, Junko Murai, Masataka Tsuda, Lara G. Phillips, Takeo Narita, Kana Nishihara, Kaori Kobayashi, Kouich Yamada, Jun Nakamura, Yves Pommier, Alan Lehmann, Julian E. Sale, Shunichi Takeda

Biology, Faculty of Science

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

43 Citations (Scopus)

Abstract

The replicative DNA polymerase Polδ consists of a catalytic subunit POLD1/p125 and three regulatory subunits POLD2/p50, POLD3/p66 and POLD4/p12. The ortholog of POLD3 in Saccharomyces cerevisiae, Pol32, is required for a significant proportion of spontaneous and UV-induced mutagenesis through its additional role in translesion synthesis (TLS) as a subunit of DNA polymerase ζ. Remarkably, chicken DT40 B lymphocytes deficient in POLD3 are viable and able to replicate undamaged genomic DNA with normal kinetics. Like its counterpart in yeast, POLD3 is required for fully effective TLS, its loss resulting in hypersensitivity to a variety of DNA damaging agents, a diminished ability to maintain replication fork progression after UV irradiation and a significant decrease in abasic site-induced mutagenesis in the immunoglobulin loci. However, these defects appear to be largely independent of Polζ, suggesting that POLD3 makes a significant contribution to TLS independently of Polζ in DT40 cells. Indeed, combining polη, polζ and pold3 mutations results in synthetic lethality. Additionally, we show in vitro that POLD3 promotes extension beyond an abasic by the Polδ holoenzyme suggesting that while POLD3 is not required for normal replication, it may help Polδ to complete abasic site bypass independently of canonical TLS polymerases.

Original language	English
Pages (from-to)	1671-1683
Number of pages	13
Journal	Nucleic acids research
Volume	43
Issue number	3
DOIs	https://doi.org/10.1093/nar/gkv023
Publication status	Published - Feb 18 2015

All Science Journal Classification (ASJC) codes

Genetics

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10.1093/nar/gkv023

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Hirota, K., Yoshikiyo, K., Guilbaud, G., Tsurimoto, T., Murai, J., Tsuda, M., Phillips, L. G., Narita, T., Nishihara, K., Kobayashi, K., Yamada, K., Nakamura, J., Pommier, Y., Lehmann, A., Sale, J. E., & Takeda, S. (2015). The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ. Nucleic acids research, 43(3), 1671-1683. https://doi.org/10.1093/nar/gkv023

Hirota, K, Yoshikiyo, K, Guilbaud, G, Tsurimoto, T, Murai, J, Tsuda, M, Phillips, LG, Narita, T, Nishihara, K, Kobayashi, K, Yamada, K, Nakamura, J, Pommier, Y, Lehmann, A, Sale, JE & Takeda, S 2015, 'The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ', Nucleic acids research, vol. 43, no. 3, pp. 1671-1683. https://doi.org/10.1093/nar/gkv023

@article{a06a8f597d0d43ecbe1378049f005855,

title = "The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ",

abstract = "The replicative DNA polymerase Polδ consists of a catalytic subunit POLD1/p125 and three regulatory subunits POLD2/p50, POLD3/p66 and POLD4/p12. The ortholog of POLD3 in Saccharomyces cerevisiae, Pol32, is required for a significant proportion of spontaneous and UV-induced mutagenesis through its additional role in translesion synthesis (TLS) as a subunit of DNA polymerase ζ. Remarkably, chicken DT40 B lymphocytes deficient in POLD3 are viable and able to replicate undamaged genomic DNA with normal kinetics. Like its counterpart in yeast, POLD3 is required for fully effective TLS, its loss resulting in hypersensitivity to a variety of DNA damaging agents, a diminished ability to maintain replication fork progression after UV irradiation and a significant decrease in abasic site-induced mutagenesis in the immunoglobulin loci. However, these defects appear to be largely independent of Polζ, suggesting that POLD3 makes a significant contribution to TLS independently of Polζ in DT40 cells. Indeed, combining polη, polζ and pold3 mutations results in synthetic lethality. Additionally, we show in vitro that POLD3 promotes extension beyond an abasic by the Polδ holoenzyme suggesting that while POLD3 is not required for normal replication, it may help Polδ to complete abasic site bypass independently of canonical TLS polymerases.",

author = "Kouji Hirota and Kazunori Yoshikiyo and Guillaume Guilbaud and Toshiki Tsurimoto and Junko Murai and Masataka Tsuda and Phillips, {Lara G.} and Takeo Narita and Kana Nishihara and Kaori Kobayashi and Kouich Yamada and Jun Nakamura and Yves Pommier and Alan Lehmann and Sale, {Julian E.} and Shunichi Takeda",

note = "Funding Information: Grant-in-Aid for Scientific Research on Innovative Areas [21114509, 24114509, 26116518], JSPS KAKENHI [20770147, 22687001, 25281021] and, grants from the Ue-hara Memorial Foundation and the Naito Foundation [to K.H.]; JSPS KAKENHI [20241012, 23221005 to S.T.]; National Institutes of Health Grants [P30 ES10126, P42 ES05948 to J.N.]; LMB from the Medical Research Council [U105178808] and Fanconi Anemia Research Fund [to G.G., L.G.P. and J.E.S.]. Conflict of interest statement. None declared. Publisher Copyright: {\textcopyright} The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.",

year = "2015",

month = feb,

day = "18",

doi = "10.1093/nar/gkv023",

language = "English",

volume = "43",

pages = "1671--1683",

journal = "Nucleic acids research",

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T1 - The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ

AU - Hirota, Kouji

AU - Yoshikiyo, Kazunori

AU - Guilbaud, Guillaume

AU - Tsurimoto, Toshiki

AU - Murai, Junko

AU - Tsuda, Masataka

AU - Phillips, Lara G.

AU - Narita, Takeo

AU - Nishihara, Kana

AU - Kobayashi, Kaori

AU - Yamada, Kouich

AU - Nakamura, Jun

AU - Pommier, Yves

AU - Lehmann, Alan

AU - Sale, Julian E.

AU - Takeda, Shunichi

N1 - Funding Information: Grant-in-Aid for Scientific Research on Innovative Areas [21114509, 24114509, 26116518], JSPS KAKENHI [20770147, 22687001, 25281021] and, grants from the Ue-hara Memorial Foundation and the Naito Foundation [to K.H.]; JSPS KAKENHI [20241012, 23221005 to S.T.]; National Institutes of Health Grants [P30 ES10126, P42 ES05948 to J.N.]; LMB from the Medical Research Council [U105178808] and Fanconi Anemia Research Fund [to G.G., L.G.P. and J.E.S.]. Conflict of interest statement. None declared. Publisher Copyright: © The Author(s) 2015. Published by Oxford University Press on behalf of Nucleic Acids Research.

PY - 2015/2/18

Y1 - 2015/2/18

N2 - The replicative DNA polymerase Polδ consists of a catalytic subunit POLD1/p125 and three regulatory subunits POLD2/p50, POLD3/p66 and POLD4/p12. The ortholog of POLD3 in Saccharomyces cerevisiae, Pol32, is required for a significant proportion of spontaneous and UV-induced mutagenesis through its additional role in translesion synthesis (TLS) as a subunit of DNA polymerase ζ. Remarkably, chicken DT40 B lymphocytes deficient in POLD3 are viable and able to replicate undamaged genomic DNA with normal kinetics. Like its counterpart in yeast, POLD3 is required for fully effective TLS, its loss resulting in hypersensitivity to a variety of DNA damaging agents, a diminished ability to maintain replication fork progression after UV irradiation and a significant decrease in abasic site-induced mutagenesis in the immunoglobulin loci. However, these defects appear to be largely independent of Polζ, suggesting that POLD3 makes a significant contribution to TLS independently of Polζ in DT40 cells. Indeed, combining polη, polζ and pold3 mutations results in synthetic lethality. Additionally, we show in vitro that POLD3 promotes extension beyond an abasic by the Polδ holoenzyme suggesting that while POLD3 is not required for normal replication, it may help Polδ to complete abasic site bypass independently of canonical TLS polymerases.

AB - The replicative DNA polymerase Polδ consists of a catalytic subunit POLD1/p125 and three regulatory subunits POLD2/p50, POLD3/p66 and POLD4/p12. The ortholog of POLD3 in Saccharomyces cerevisiae, Pol32, is required for a significant proportion of spontaneous and UV-induced mutagenesis through its additional role in translesion synthesis (TLS) as a subunit of DNA polymerase ζ. Remarkably, chicken DT40 B lymphocytes deficient in POLD3 are viable and able to replicate undamaged genomic DNA with normal kinetics. Like its counterpart in yeast, POLD3 is required for fully effective TLS, its loss resulting in hypersensitivity to a variety of DNA damaging agents, a diminished ability to maintain replication fork progression after UV irradiation and a significant decrease in abasic site-induced mutagenesis in the immunoglobulin loci. However, these defects appear to be largely independent of Polζ, suggesting that POLD3 makes a significant contribution to TLS independently of Polζ in DT40 cells. Indeed, combining polη, polζ and pold3 mutations results in synthetic lethality. Additionally, we show in vitro that POLD3 promotes extension beyond an abasic by the Polδ holoenzyme suggesting that while POLD3 is not required for normal replication, it may help Polδ to complete abasic site bypass independently of canonical TLS polymerases.

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U2 - 10.1093/nar/gkv023

DO - 10.1093/nar/gkv023

M3 - Article

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AN - SCOPUS:84936089253

SN - 0305-1048

VL - 43

SP - 1671

EP - 1683

JO - Nucleic acids research

JF - Nucleic acids research

IS - 3

ER -

The POLD3 subunit of DNA polymerase δ can promote translesion synthesis independently of DNA polymerase ζ

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