HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation: Existence of an alternative E3 ligase

Peter H.L. Krijger; Kyoo Young Lee; Niek Wit; Paul C.M. van den Berk; Xiaoli Wu; Henk P. Roest; Alex Maas; Hao Ding; Jan H.J. Hoeijmakers; Kyungjae Myung; Heinz Jacobs

doi:10.1016/j.dnarep.2010.12.008

HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation: Existence of an alternative E3 ligase

Peter H.L. Krijger
, Kyoo Young Lee
, Niek Wit
, Paul C.M. van den Berk
, Xiaoli Wu
, Henk P. Roest
, Alex Maas
, Hao Ding
, Jan H.J. Hoeijmakers
, Kyungjae Myung
, Heinz Jacobs

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

54 Citations (Scopus)

Abstract

DNA damage tolerance is regulated at least in part at the level of proliferating cell nuclear antigen (PCNA) ubiquitination. Monoubiquitination (PCNA-Ub) at lysine residue 164 (K164) stimulates error-prone translesion synthesis (TLS), Rad5-dependent polyubiquitination (PCNA-Ubⁿ) stimulates error-free template switching (TS). To generate high affinity antibodies by somatic hypermutation (SHM), B cells profit from error-prone TLS polymerases. Consistent with the role of PCNA-Ub in stimulating TLS, hypermutated B cells of PCNA^K164R mutant mice display a defect in generating selective point mutations. Two Rad5 orthologs, HLTF and SHPRH have been identified as alternative E3 ligases generating PCNA-Ubⁿ in mammals. As PCNA-Ub and PCNA-Ubⁿ both make use of K164, error-free PCNA-Ubⁿ-dependent TS may suppress error-prone PCNA-Ub-dependent TLS. To determine a regulatory role of Shprh and Hltf in SHM, we generated Shprh/Hltf double mutant mice. Interestingly, while the formation of PCNA-Ub and PCNA-Ubⁿ is prohibited in PCNA^K164R MEFs, the formation of PCNA-Ubⁿ is not abolished in Shprh/Hltf mutant MEFs. In line with these observations Shprh/Hltf double mutant B cells were not hypersensitive to DNA damage. Furthermore, SHM was normal in Shprh/Hltf mutant B cells. These data suggest the existence of an alternative E3 ligase in the generation of PCNA-Ubⁿ.

Original language	English
Pages (from-to)	438-444
Number of pages	7
Journal	DNA repair
Volume	10
Issue number	4
DOIs	https://doi.org/10.1016/j.dnarep.2010.12.008
Publication status	Published - 3 Apr 2011
Externally published	Yes

Keywords

HLTF
PCNA
RAD5
SHPRH
Somatic hypermutation
Translesion synthesis

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10.1016/j.dnarep.2010.12.008

Cite this

Krijger, P. H. L., Lee, K. Y., Wit, N., van den Berk, P. C. M., Wu, X., Roest, H. P., Maas, A., Ding, H., Hoeijmakers, J. H. J., Myung, K., & Jacobs, H. (2011). HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation: Existence of an alternative E3 ligase. DNA repair, 10(4), 438-444. https://doi.org/10.1016/j.dnarep.2010.12.008

@article{d49b7d43558b465b8aa1ad16b5820a0b,

title = "HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation: Existence of an alternative E3 ligase",

abstract = "DNA damage tolerance is regulated at least in part at the level of proliferating cell nuclear antigen (PCNA) ubiquitination. Monoubiquitination (PCNA-Ub) at lysine residue 164 (K164) stimulates error-prone translesion synthesis (TLS), Rad5-dependent polyubiquitination (PCNA-Ubn) stimulates error-free template switching (TS). To generate high affinity antibodies by somatic hypermutation (SHM), B cells profit from error-prone TLS polymerases. Consistent with the role of PCNA-Ub in stimulating TLS, hypermutated B cells of PCNAK164R mutant mice display a defect in generating selective point mutations. Two Rad5 orthologs, HLTF and SHPRH have been identified as alternative E3 ligases generating PCNA-Ubn in mammals. As PCNA-Ub and PCNA-Ubn both make use of K164, error-free PCNA-Ubn-dependent TS may suppress error-prone PCNA-Ub-dependent TLS. To determine a regulatory role of Shprh and Hltf in SHM, we generated Shprh/Hltf double mutant mice. Interestingly, while the formation of PCNA-Ub and PCNA-Ubn is prohibited in PCNAK164R MEFs, the formation of PCNA-Ubn is not abolished in Shprh/Hltf mutant MEFs. In line with these observations Shprh/Hltf double mutant B cells were not hypersensitive to DNA damage. Furthermore, SHM was normal in Shprh/Hltf mutant B cells. These data suggest the existence of an alternative E3 ligase in the generation of PCNA-Ubn.",

keywords = "HLTF, PCNA, RAD5, SHPRH, Somatic hypermutation, Translesion synthesis",

author = "Krijger, \{Peter H.L.\} and Lee, \{Kyoo Young\} and Niek Wit and \{van den Berk\}, \{Paul C.M.\} and Xiaoli Wu and Roest, \{Henk P.\} and Alex Maas and Hao Ding and Hoeijmakers, \{Jan H.J.\} and Kyungjae Myung and Heinz Jacobs",

note = "Funding Information: We thank Frank van Diepen and Anita Pfauth for cell sortings, the NKI-AVL mouse facility for assistance and the NKI-AVL sequence facility for sequencing. An anti-SHPRH antibody was kindly provided by Dr. Sood (NHGRI, NIH). We like to apologize everybody whose work could only be cited indirectly due to space limitations. We also thank Vanessa-Leigh van Zuylen for critically reading the manuscript. This research was supported by the intramural research program of the NHGRI, NIH (HG012003-09) to KM, by the Korea Research Foundation Grant ( KRF-2007-357-C00092 ) funded by the Korean Government to KL, the Netherlands Organisation for Scientific Research and the Dutch Cancer Society (VIDI program NWO 917.56.328 and KWF grant NKI-2008-4112 to HJ, and EUR99-2003 to HR and JH). ",

year = "2011",

month = apr,

day = "3",

doi = "10.1016/j.dnarep.2010.12.008",

language = "English",

volume = "10",

pages = "438--444",

journal = "DNA repair",

issn = "1568-7864",

publisher = "Elsevier B.V.",

number = "4",

}

TY - JOUR

T1 - HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation

T2 - Existence of an alternative E3 ligase

AU - Krijger, Peter H.L.

AU - Lee, Kyoo Young

AU - Wit, Niek

AU - van den Berk, Paul C.M.

AU - Wu, Xiaoli

AU - Roest, Henk P.

AU - Maas, Alex

AU - Ding, Hao

AU - Hoeijmakers, Jan H.J.

AU - Myung, Kyungjae

AU - Jacobs, Heinz

N1 - Funding Information: We thank Frank van Diepen and Anita Pfauth for cell sortings, the NKI-AVL mouse facility for assistance and the NKI-AVL sequence facility for sequencing. An anti-SHPRH antibody was kindly provided by Dr. Sood (NHGRI, NIH). We like to apologize everybody whose work could only be cited indirectly due to space limitations. We also thank Vanessa-Leigh van Zuylen for critically reading the manuscript. This research was supported by the intramural research program of the NHGRI, NIH (HG012003-09) to KM, by the Korea Research Foundation Grant ( KRF-2007-357-C00092 ) funded by the Korean Government to KL, the Netherlands Organisation for Scientific Research and the Dutch Cancer Society (VIDI program NWO 917.56.328 and KWF grant NKI-2008-4112 to HJ, and EUR99-2003 to HR and JH).

PY - 2011/4/3

Y1 - 2011/4/3

N2 - DNA damage tolerance is regulated at least in part at the level of proliferating cell nuclear antigen (PCNA) ubiquitination. Monoubiquitination (PCNA-Ub) at lysine residue 164 (K164) stimulates error-prone translesion synthesis (TLS), Rad5-dependent polyubiquitination (PCNA-Ubn) stimulates error-free template switching (TS). To generate high affinity antibodies by somatic hypermutation (SHM), B cells profit from error-prone TLS polymerases. Consistent with the role of PCNA-Ub in stimulating TLS, hypermutated B cells of PCNAK164R mutant mice display a defect in generating selective point mutations. Two Rad5 orthologs, HLTF and SHPRH have been identified as alternative E3 ligases generating PCNA-Ubn in mammals. As PCNA-Ub and PCNA-Ubn both make use of K164, error-free PCNA-Ubn-dependent TS may suppress error-prone PCNA-Ub-dependent TLS. To determine a regulatory role of Shprh and Hltf in SHM, we generated Shprh/Hltf double mutant mice. Interestingly, while the formation of PCNA-Ub and PCNA-Ubn is prohibited in PCNAK164R MEFs, the formation of PCNA-Ubn is not abolished in Shprh/Hltf mutant MEFs. In line with these observations Shprh/Hltf double mutant B cells were not hypersensitive to DNA damage. Furthermore, SHM was normal in Shprh/Hltf mutant B cells. These data suggest the existence of an alternative E3 ligase in the generation of PCNA-Ubn.

AB - DNA damage tolerance is regulated at least in part at the level of proliferating cell nuclear antigen (PCNA) ubiquitination. Monoubiquitination (PCNA-Ub) at lysine residue 164 (K164) stimulates error-prone translesion synthesis (TLS), Rad5-dependent polyubiquitination (PCNA-Ubn) stimulates error-free template switching (TS). To generate high affinity antibodies by somatic hypermutation (SHM), B cells profit from error-prone TLS polymerases. Consistent with the role of PCNA-Ub in stimulating TLS, hypermutated B cells of PCNAK164R mutant mice display a defect in generating selective point mutations. Two Rad5 orthologs, HLTF and SHPRH have been identified as alternative E3 ligases generating PCNA-Ubn in mammals. As PCNA-Ub and PCNA-Ubn both make use of K164, error-free PCNA-Ubn-dependent TS may suppress error-prone PCNA-Ub-dependent TLS. To determine a regulatory role of Shprh and Hltf in SHM, we generated Shprh/Hltf double mutant mice. Interestingly, while the formation of PCNA-Ub and PCNA-Ubn is prohibited in PCNAK164R MEFs, the formation of PCNA-Ubn is not abolished in Shprh/Hltf mutant MEFs. In line with these observations Shprh/Hltf double mutant B cells were not hypersensitive to DNA damage. Furthermore, SHM was normal in Shprh/Hltf mutant B cells. These data suggest the existence of an alternative E3 ligase in the generation of PCNA-Ubn.

KW - HLTF

KW - PCNA

KW - RAD5

KW - SHPRH

KW - Somatic hypermutation

KW - Translesion synthesis

UR - https://www.scopus.com/pages/publications/79952708049

U2 - 10.1016/j.dnarep.2010.12.008

DO - 10.1016/j.dnarep.2010.12.008

M3 - Article

C2 - 21269891

AN - SCOPUS:79952708049

SN - 1568-7864

VL - 10

SP - 438

EP - 444

JO - DNA repair

JF - DNA repair

IS - 4

ER -

HLTF and SHPRH are not essential for PCNA polyubiquitination, survival and somatic hypermutation: Existence of an alternative E3 ligase

Abstract

Keywords

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