Development and validation of a modified comet assay to phenotypically assess nucleotide excision repair

doi:10.1093/mutage/gel013

Mutagenesis Advance Access originally published online on March 23, 2006
Mutagenesis 2006 21(2):153-158; doi:10.1093/mutage/gel013

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Development and validation of a modified comet assay to phenotypically assess nucleotide excision repair

Sabine A.S. Langie¹, Ad M. Knaapen¹, Karen J.J. Brauers¹, Damien van Berlo¹^,2, Frederik-Jan van Schooten¹ and Roger W.L. Godschalk¹^,*

¹Nutrition and Toxicology Research Institute Maastricht (NUTRIM), Department of Health Risk Analysis and Toxicology, Maastricht University, 6200 MD, PO Box 616, Maastricht, The Netherlands and ²Institut für Umweltmedizinische Forschung (IUF), Heinrich-Heine-University, Düsseldorf, Germany

There is an increasing need for simple and reliable approachesto phenotypically assess DNA repair capacities. Therefore, amodification of the alkaline comet assay was developed to determinethe ability of human lymphocyte extracts to perform the initialsteps of the nucleotide excision repair (NER) process, i.e.damage recognition and incision. Gel-embedded nucleoids fromA549 cells, pre-exposed to 1 µM benzo[a]pyrene-diol-epoxide,were incubated with cell extracts from frozen or freshly isolatedlymphocytes. The rate at which incisions are introduced andthe subsequent increase in tail moment is indicative for therepair capacity of the extracts. Freshly prepared extracts fromlymphocytes of human volunteers (n = 8) showed significant inter-individualvariations in their DNA repair capacity, which correlated withthe removal of bulky DNA lesions over a period of 48 h determinedby ³²P-post-labelling (R² = 0.76, P = 0.005). Repeated measurementsrevealed a low inter-assay variation (11%). Storage of cellextracts for more than 3 weeks significantly reduced (up to80%) the capacity to incise the damaged DNA as compared to freshlyisolated extracts. This reduction was completely restored byaddition of ATP to the extracts before use, as it is requiredfor the incision step of NER. In contrast, extracts freshlyprepared from frozen lymphocyte pellets can be used withoutloss of repair activity. DNA repair deficient XPA–/–and XPC–/– fibroblasts were used to further validatethe assay. Although some residual capacity to incise the DNAwas observed in these cells, the repair activity was restoredto normal wild-type levels when a complementary mixture of bothextracts (thereby restoring XPA and XPC deficiency) was used.These results demonstrate that this repair assay can be appliedin molecular epidemiological studies to assess inter-individualdifferences in NER.

^* To whom correspondence should be addressed. Tel: +31 43 388 1104; Fax: +31 43 388 4146; Email: R.Godschalk{at}GRAT.unimaas.nl

Received on January 19, 2006; received and accepted on February 14, 2006

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