Nucleotide excision repair in Human cell lines lacking both XPC and CSB proteins

Author:

Lindsey-Boltz Laura A1ORCID,Yang Yanyan1ORCID,Kose Cansu1ORCID,Deger Nazli1,Eynullazada Khagani1,Kawara Hiroaki1,Sancar Aziz1ORCID

Affiliation:

1. Department of Biochemistry and Biophysics, University of North Carolina School of Medicine , Chapel Hill, NC , USA

Abstract

Abstract Nucleotide excision repair removes UV-induced DNA damage through two distinct sub-pathways, global repair and transcription-coupled repair (TCR). Numerous studies have shown that in human and other mammalian cell lines that the XPC protein is required for repair of DNA damage from nontranscribed DNA via global repair and the CSB protein is required for repair of lesions from transcribed DNA via TCR. Therefore, it is generally assumed that abrogating both sub-pathways with an XPC−/−/CSB−/− double mutant would eliminate all nucleotide excision repair. Here we describe the construction of three different XPC−/−/CSB−/− human cell lines that, contrary to expectations, perform TCR. The XPC and CSB genes were mutated in cell lines derived from Xeroderma Pigmentosum patients as well as from normal human fibroblasts and repair was analyzed at the whole genome level using the very sensitive XR-seq method. As predicted, XPC−/− cells exhibited only TCR and CSB−/− cells exhibited only global repair. However, the XPC−/−/CSB−/− double mutant cell lines, although having greatly reduced repair, exhibited TCR. Mutating the CSA gene to generate a triple mutant XPC−/−/CSB−/−/CSA−/− cell line eliminated all residual TCR activity. Together, these findings provide new insights into the mechanistic features of mammalian nucleotide excision repair.

Funder

National Institutes of Health

Publisher

Oxford University Press (OUP)

Subject

Genetics

Reference43 articles.

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