Human longevity and variation in DNA damage response and repair: study of the contribution of sub-processes using competitive gene-set analysis

Debrabant, Birgit, Soerensen, Mette, Flachsbart, Friederike, Dato, Serena, Mengel-From, Jonas, Stevnsner, Tinna, Bohr, Vilhelm A., Kruse, Torben A., Schreiber, Stefan, Nebe, Almut, Christensen, Kaare, Tan, Qihua and Christiansen, Lene (2014) Human longevity and variation in DNA damage response and repair: study of the contribution of sub-processes using competitive gene-set analysis European Journal of Human Genetics, 22 (9). pp. 1131-1136.

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Abstract

DNA-damage response and repair are crucial to maintain genetic stability, and are consequently considered central to aging and longevity. Here, we investigate whether this pathway overall associates to longevity, and whether specific sub-processes are more strongly associated with longevity than others. Data were applied on 592 SNPs from 77 genes involved in nine sub-processes: DNA-damage response, base excision repair (BER), nucleotide excision repair, mismatch repair, non-homologous end-joining, homologous recombinational repair (HRR), RecQ helicase activities (RECQ), telomere functioning and mitochondria! DNA processes. The study population was 1089 long-lived and 736 middle-aged Danes. A self-contained set-based test of all SNPs displayed association with longevity (P-value = 9.9 x 10(-5)), supporting that the overall pathway could affect longevity. Investigation of the nine sub-processes using the competitive gene-set analysis by Wang et al indicated that BER, HRR and RECQ associated stronger with longevity than the respective remaining genes of the pathway (P-values = 0.004-0.048). For HRR and RECQ, only one gene contributed to the significance, whereas for BER several genes contributed. These associations did, however, generally not pass correction for multiple testing. Still, these findings indicate that, of the entire pathway, variation in BER might influence longevity the most. These modest sized P-values were not replicated in a German sample. This might, though, be due to differences in genotyping procedures and investigated SNPs, potentially inducing differences in the coverage of gene regions. Specifically, five genes were not covered at all in the German data. Therefore, investigations in additional study populations are needed before final conclusion can be drawn.

Document Type: Article
Additional Information: Times Cited: 2 Christensen, Kaare/C-2360-2009; Nebel, Almut/E-4196-2010 Christensen, Kaare/0000-0002-5429-5292; 0 2
Research affiliation: Kiel University
OceanRep > The Future Ocean - Cluster of Excellence
ISSN: 1018-4813
Projects: Future Ocean
Date Deposited: 30 Mar 2015 12:08
Last Modified: 30 Mar 2015 12:08
URI: http://eprints.uni-kiel.de/id/eprint/27254

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