Identification of conserved pathways of DNA-damage response and radiation protection by genome-wide RNAi.

G.W. van Haaften, R. Romeijn, J. Pothof, W. Koole, L.H. Mullenders, A. Pastink, R.H.A. Plasterk, M. Tijsterman

Research output: Contribution to journal/periodicalArticleScientificpeer-review

82 Citations (Scopus)

Abstract

Ionizing radiation is extremely harmful for human cells, and DNA double-strand breaks (DSBs) are considered to be the main cytotoxic lesions induced. Improper processing of DSBs contributes to tumorigenesis, and mutations in DSB response genes underlie several inherited disorders characterized by cancer predisposition. Here, we performed a comprehensive screen for genes that protect animal cells against ionizing radiation. A total of 45 C. elegans genes were identified in a genome-wide RNA interference screen for increased sensitivity to ionizing radiation in germ cells. These genes include orthologs of well-known human cancer predisposition genes as well as novel genes, including human disease genes not previously linked to defective DNA-damage responses. Knockdown of eleven genes also impaired radiation-induced cell-cycle arrest, and seven genes were essential for apoptosis upon exposure to irradiation. The gene set was further clustered on the basis of increased sensitivity to DNA-damaging cancer drugs cisplatin and camptothecin. Almost all genes are conserved across animal phylogeny, and their relevance for humans was directly demonstrated by showing that their knockdown in human cells results in radiation sensitivity, indicating that this set of genes is important for future cancer profiling and drug development.
Original languageEnglish
Pages (from-to)1344-1350
JournalCurrent Biology
Volume16
Issue number13
DOIs
Publication statusPublished - 2006

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