RanBP2-Mediated SUMOylation Promotes Human DNA Polymerase Lambda Nuclear Localization and DNA Repair
Cellular DNA is under constant attack by a wide variety of agents, both endogenous and exogenous. To counteract DNA damage, human cells have a large collection of DNA repair factors. Among them, DNA polymerase lambda (Polλ) stands out for its versatility, as it participates in different DNA repair a...
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Veröffentlicht in: | Journal of molecular biology 2020-06, Vol.432 (13), p.3965-3979 |
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Sprache: | eng |
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Zusammenfassung: | Cellular DNA is under constant attack by a wide variety of agents, both endogenous and exogenous. To counteract DNA damage, human cells have a large collection of DNA repair factors. Among them, DNA polymerase lambda (Polλ) stands out for its versatility, as it participates in different DNA repair and damage tolerance pathways in which gap-filling DNA synthesis is required. In this work, we show that human Polλ is conjugated with Small Ubiquitin-like MOdifier (SUMO) proteins both in vitro and in vivo, with Lys27 being the main target of this covalent modification. Polλ SUMOylation takes place in the nuclear pore complex and is mediated by the E3 ligase RanBP2. This post-translational modification promotes Polλ entry into the nucleus, which is required for its recruitment to DNA lesions and stimulated by DNA damage induction. Our work represents an advance in the knowledge of molecular pathways that regulate cellular localization of human Polλ, which are essential to be able to perform its functions during repair of nuclear DNA, and that might constitute an important point for the modulation of its activity in human cells.
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•Human Polλ is modified by SUMOylation, bothin vitroandin vivo.•SUMOylation mainly targets Polλ lysine 27 (K27) residue.•SUMOylation promotes nuclear localization of Polλ.•Polλ SUMOylation is dependent on the nuclear pore complex-associated E3 ligase RanBP2.•Polλ SUMOylation increases by DNA damage, and allows Polλ recruitment to repair DNA double-strand breaks. |
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ISSN: | 0022-2836 1089-8638 |
DOI: | 10.1016/j.jmb.2020.03.020 |