Reactome | Formation of TC-NER Pre-Incision Complex

Formation of TC-NER Pre-Incision Complex

Stable Identifier

R-HSA-6781823

Type

Pathway

Species

Homo sapiens

Compartment

nucleoplasm

ReviewStatus

5/5

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Formation of TC-NER pre-incision complex is initiated when the RNA polymerase II (RNA Pol II) complex stalls at a DNA damage site. The stalling is caused by misincorporation of a ribonucleotide opposite to a damaged base (Brueckner et al. 2007). Cockayne syndrome protein B (ERCC6, CSB) binds stalled RNA Pol II and recruits Cockayne syndrome protein A (ERCC8, CSA). ERCC8 is part of an ubiquitin ligase complex that also contains DDB1, CUL4A or CUL4B and RBX1. This complex is implicated in the regulation of TC-NER progression probably by ubiquitinating one or more factors involved in this pathway, which may include RNA Pol II and ERCC6 at the later stages of repair (Bregman et al. 1996, Fousteri et al. 2006, Groisman et al. 2006). XPA is recruited to the TC-NER site through its interaction with the TFIIH complex (Furuta et al. 2002, Ziani et al. 2014). The XAB2 complex, which probably regulates the accessibility of the DNA damage site through its RNA-DNA helicase activity, binds the TC-NER site via the interaction of its XAB2 subunit with RNA Pol II, ERCC6, ERCC8 and XPA (Nakatsu et al. 2000, Sollier et al. 2014). TCEA1 (TFIIS) is a transcription elongation factor that may facilitate backtracking of the stalled RNA Pol II, enabling access of repair proteins to the DNA damage site and promotes partial digestion of the 3' protruding end of the nascent mRNA transcript by the backtracked RNA Pol II, allowing resumption of RNA synthesis after damage removal (Donahue et al. 1994). Access to DNA damage sites in TC-NER was suggested to be facilitated by a chromatin remodeler HMGN1 (Birger et al. 2003), but another sudy found that HMGN1 was not needed for human TC-NER (Apelt et al. 2020). UVSSA protein interacts with ubiquitinated ERCC6 and RNA Pol II, recruiting ubiquitin protease USP7 to the TC-NER site and promoting ERCC6 stabilization (Nakazawa et al. 2012, Schwertman et al. 2012, Zhang et al. 2012, Fei and Chen 2012).

Literature References

PubMed ID	Title	Journal	Year
12208738	Transcription-coupled nucleotide excision repair as a determinant of cisplatin sensitivity of human cells Pommier, Y, Sarasin, A, Aune, G, Ueda, T, Kraemer, KH, Furuta, T	Cancer Res.	2002
12660172	Chromosomal protein HMGN1 enhances the rate of DNA repair in chromatin Furusawa, T, Postnikov, YV, Wagner, JP, Birger, Y, Bustin, M, Lim, JH, Laufer, CS, Kraemer, KH, West, KL	EMBO J.	2003
8078911	Transcript cleavage by RNA polymerase II arrested by a cyclobutane pyrimidine dimer in the DNA template Donahue, BA, Reines, D, Taylor, JS, Yin, S, Hanawalt, PC	Proc. Natl. Acad. Sci. U.S.A.	1994
17290000	CPD damage recognition by transcribing RNA polymerase II Carell, T, Brueckner, F, Cramer, P, Hennecke, U	Science	2007
32152397	Human HMGN1 and HMGN2 are not required for transcription-coupled DNA repair van den Heuvel, D, Luijsterburg, MS, Wondergem, AP, Apelt, K, Zoutendijk, I, Gout, DY	Sci Rep	2020
22466610	Mutations in UVSSA cause UV-sensitive syndrome and impair RNA polymerase IIo processing in transcription-coupled nucleotide-excision repair Kinoshita, A, Tateishi, S, Takenaka, K, Takahashi, Y, Yamashita, S, Lehmann, AR, Mishima, H, Masuyama, R, Nardo, T, Ohyama, K, Ito, K, Ogi, T, Stefanini, M, Ono, S, Yoshiura, K, Slor, H, Shimada, M, Mitsutake, N, Utani, A, Kudo, T, Matsuse, M, Sasaki, K, Nomura, M, Nakazawa, Y	Nat. Genet.	2012
16751180	CSA-dependent degradation of CSB by the ubiquitin-proteasome pathway establishes a link between complementation factors of the Cockayne syndrome Kuraoka, I, Kisselev, AF, Tanaka, K, Harel-Bellan, A, Magnaldo, T, Groisman, R, Chevallier, O, Gaye, N, Nakatani, Y	Genes Dev.	2006
22466611	UV-sensitive syndrome protein UVSSA recruits USP7 to regulate transcription-coupled repair Laffeber, C, Fousteri, M, Demmers, JA, Raams, A, van der Hoek, AC, Marteijn, JA, Lagarou, A, Schwertman, P, Dekkers, DH, Vermeulen, W, Hoeijmakers, JH	Nat. Genet.	2012
25435140	Transcription-coupled nucleotide excision repair factors promote R-loop-induced genome instability Aguilera, A, Stork, CT, Cimprich, KA, García-Rubio, ML, Sollier, J, Paulsen, RD	Mol. Cell	2014
22902626	KIAA1530 protein is recruited by Cockayne syndrome complementation group protein A (CSA) to participate in transcription-coupled repair (TCR) Fei, J, Chen, J	J. Biol. Chem.	2012
25154395	Sequential and ordered assembly of a large DNA repair complex on undamaged chromatin Alekseev, S, Ziani, S, Coin, F, Egly, JM, Soutoglou, E, Nagy, Z	J. Cell Biol.	2014
8876179	UV-induced ubiquitination of RNA polymerase II: a novel modification deficient in Cockayne syndrome cells van Gool, AJ, Bregman, DB, Friedberg, EC, Warren, SL, Henning, KA, Halaban, R	Proc. Natl. Acad. Sci. U.S.A.	1996
10944529	XAB2, a novel tetratricopeptide repeat protein involved in transcription-coupled DNA repair and transcription Kamiuchi, S, Kodo, N, Yeo, JP, Matsuda, T, Vermeulen, W, Tanaka, K, Hoeijmakers, JH, Khaw, MC, Citterio, E, Saijo, M, Nakatsu, Y, Rademakers, S, Asahina, H	J. Biol. Chem.	2000