PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1

A Pines; MG Vrouwe; Jurgen Marteijn; D Typas; MS Luijsterburg; Medine Cansoy; P Hensbergen; A Deelder; A (Anton) de Groot; S Matsumoto; K Sugasawa; N Thoma; Wim Vermeulen; H Vrieling; L Mullenders

doi:10.1083/jcb.201112132

PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1

A Pines
, MG Vrouwe
, Jurgen Marteijn
, D Typas
, MS Luijsterburg
, Medine Cansoy
, P Hensbergen
, A Deelder
, A (Anton) de Groot
, S Matsumoto
, K Sugasawa
, N Thoma
, Wim Vermeulen
, H Vrieling
, L Mullenders

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

221 Citations (Scopus)

47 Downloads (Pure)

Abstract

The WD40-repeat protein DDB2 is essential for efficient recognition and subsequent removal of ultraviolet (UV)-induced DNA lesions by nucleotide excision repair (NER). However, how DDB2 promotes NER in chromatin is poorly understood. Here, we identify poly(ADP-ribose) polymerase 1 (PARP1) as a novel DDB2-associated factor. We demonstrate that DDB2 facilitated poly(ADP-ribosyl)ation of UV-damaged chromatin through the activity of PARP1, resulting in the recruitment of the chromatin-remodeling enzyme ALC1. Depletion of ALC1 rendered cells sensitive to UV and impaired repair of UV-induced DNA lesions. Additionally, DDB2 itself was targeted by poly(ADP-ribosyl)ation, resulting in increased protein stability and a prolonged chromatin retention time. Our in vitro and in vivo data support a model in which poly(ADP-ribosyl)ation of DDB2 suppresses DDB2 ubiquitylation and outline a molecular mechanism for PARP1-mediated regulation of NER through DDB2 stabilization and recruitment of the chromatin remodeler ALC1.

Original language	Undefined/Unknown
Pages (from-to)	235-249
Number of pages	15
Journal	Journal of Cell Biology
Volume	199
Issue number	2
DOIs	https://doi.org/10.1083/jcb.201112132
Publication status	Published - 2012

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EMC MGC-01-12-03

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Repub_68005_O-A.pdfFinal published version, 2.83 MB

http://hdl.handle.net/1765/68005

Cite this

Pines, A., Vrouwe, MG., Marteijn, J., Typas, D., Luijsterburg, MS., Cansoy, M., Hensbergen, P., Deelder, A., de Groot, A., Matsumoto, S., Sugasawa, K., Thoma, N., Vermeulen, W., Vrieling, H., & Mullenders, L. (2012). PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1. Journal of Cell Biology, 199(2), 235-249. https://doi.org/10.1083/jcb.201112132

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title = "PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1",

abstract = "The WD40-repeat protein DDB2 is essential for efficient recognition and subsequent removal of ultraviolet (UV)-induced DNA lesions by nucleotide excision repair (NER). However, how DDB2 promotes NER in chromatin is poorly understood. Here, we identify poly(ADP-ribose) polymerase 1 (PARP1) as a novel DDB2-associated factor. We demonstrate that DDB2 facilitated poly(ADP-ribosyl)ation of UV-damaged chromatin through the activity of PARP1, resulting in the recruitment of the chromatin-remodeling enzyme ALC1. Depletion of ALC1 rendered cells sensitive to UV and impaired repair of UV-induced DNA lesions. Additionally, DDB2 itself was targeted by poly(ADP-ribosyl)ation, resulting in increased protein stability and a prolonged chromatin retention time. Our in vitro and in vivo data support a model in which poly(ADP-ribosyl)ation of DDB2 suppresses DDB2 ubiquitylation and outline a molecular mechanism for PARP1-mediated regulation of NER through DDB2 stabilization and recruitment of the chromatin remodeler ALC1.",

author = "A Pines and MG Vrouwe and Jurgen Marteijn and D Typas and MS Luijsterburg and Medine Cansoy and P Hensbergen and A Deelder and \{de Groot\}, \{A (Anton)\} and S Matsumoto and K Sugasawa and N Thoma and Wim Vermeulen and H Vrieling and L Mullenders",

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Pines, A, Vrouwe, MG, Marteijn, J, Typas, D, Luijsterburg, MS, Cansoy, M, Hensbergen, P, Deelder, A, de Groot, A, Matsumoto, S, Sugasawa, K, Thoma, N, Vermeulen, W, Vrieling, H & Mullenders, L 2012, 'PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1', Journal of Cell Biology, vol. 199, no. 2, pp. 235-249. https://doi.org/10.1083/jcb.201112132

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T1 - PARP1 promotes nucleotide excision repair through DDB2 stabilization and recruitment of ALC1

AU - Pines, A

AU - Vrouwe, MG

AU - Marteijn, Jurgen

AU - Typas, D

AU - Luijsterburg, MS

AU - Cansoy, Medine

AU - Hensbergen, P

AU - Deelder, A

AU - de Groot, A (Anton)

AU - Matsumoto, S

AU - Sugasawa, K

AU - Thoma, N

AU - Vermeulen, Wim

AU - Vrieling, H

AU - Mullenders, L

PY - 2012

Y1 - 2012

N2 - The WD40-repeat protein DDB2 is essential for efficient recognition and subsequent removal of ultraviolet (UV)-induced DNA lesions by nucleotide excision repair (NER). However, how DDB2 promotes NER in chromatin is poorly understood. Here, we identify poly(ADP-ribose) polymerase 1 (PARP1) as a novel DDB2-associated factor. We demonstrate that DDB2 facilitated poly(ADP-ribosyl)ation of UV-damaged chromatin through the activity of PARP1, resulting in the recruitment of the chromatin-remodeling enzyme ALC1. Depletion of ALC1 rendered cells sensitive to UV and impaired repair of UV-induced DNA lesions. Additionally, DDB2 itself was targeted by poly(ADP-ribosyl)ation, resulting in increased protein stability and a prolonged chromatin retention time. Our in vitro and in vivo data support a model in which poly(ADP-ribosyl)ation of DDB2 suppresses DDB2 ubiquitylation and outline a molecular mechanism for PARP1-mediated regulation of NER through DDB2 stabilization and recruitment of the chromatin remodeler ALC1.

AB - The WD40-repeat protein DDB2 is essential for efficient recognition and subsequent removal of ultraviolet (UV)-induced DNA lesions by nucleotide excision repair (NER). However, how DDB2 promotes NER in chromatin is poorly understood. Here, we identify poly(ADP-ribose) polymerase 1 (PARP1) as a novel DDB2-associated factor. We demonstrate that DDB2 facilitated poly(ADP-ribosyl)ation of UV-damaged chromatin through the activity of PARP1, resulting in the recruitment of the chromatin-remodeling enzyme ALC1. Depletion of ALC1 rendered cells sensitive to UV and impaired repair of UV-induced DNA lesions. Additionally, DDB2 itself was targeted by poly(ADP-ribosyl)ation, resulting in increased protein stability and a prolonged chromatin retention time. Our in vitro and in vivo data support a model in which poly(ADP-ribosyl)ation of DDB2 suppresses DDB2 ubiquitylation and outline a molecular mechanism for PARP1-mediated regulation of NER through DDB2 stabilization and recruitment of the chromatin remodeler ALC1.

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