The essential comet assay: a comprehensive guide to measuring DNA damage and repair

The comet assay (single cell gel electrophoresis) is the most common method for measuring DNA damage in eukaryotic cells or disaggregated tissues. The assay depends on the relaxation of supercoiled DNA in agarose-embedded nucleoids (the residual bodies remaining after lysis of cells with detergent and high salt), which allows the DNA to be drawn out towards the anode under electrophoresis, forming comet-like images as seen under fluorescence microscopy. The relative amount of DNA in the comet tail indicates DNA break frequency. The assay has been modified to detect various base alterations, by including digestion of nucleoids with a lesion-specific endonuclease. We describe here recent technical developments, theoretical aspects, limitations as well as advantages of the assay, and modifications to measure cellular antioxidant status and different types of DNA repair. We briefly describe the applications of this method in genotoxicity testing, human biomonitoring, and ecogenotoxicology.

[1]  Diana Anderson,et al.  Launch of the ComNet (comet network) project on the comet assay in human population studies during the International Comet Assay Workshop meeting in Kusadasi, Turkey (September 13-16, 2011). , 2012, Mutagenesis.

[2]  Günter Speit,et al.  Sensitivity of the FPG protein towards alkylation damage in the comet assay. , 2004, Toxicology letters.

[3]  A. Collins,et al.  Ex vivo assessment of lymphocyte antioxidant status using the comet assay. , 1997, Free radical research.

[4]  T. Lindahl,et al.  Quality control by DNA repair. , 1999, Science.

[5]  Gunnar Brunborg,et al.  The comet assay: topical issues. , 2008, Mutagenesis.

[6]  Trevelyan Square,et al.  Recommendations for conducting the in vivo alkaline Comet assay , 2003 .

[7]  GUIDANCE DOCUMENT,et al.  Guidance on Genotoxicity Testing and Data Interpretation for Pharmaceuticals Intended for Human Use , 2008 .

[8]  A. Collins,et al.  Inter-individual differences in repair of DNA base oxidation, measured in vitro with the comet assay. , 2001, Mutagenesis.

[9]  A. Waugh,et al.  Effect of diet and vitamin C on DNA strand breakage in freshly-isolated human white blood cells. , 1994, Mutation research.

[10]  David H Phillips,et al.  Variation in the measurement of DNA damage by comet assay measured by the ECVAG inter-laboratory validation trial. , 2010, Mutagenesis.

[11]  G. Speit,et al.  The comet assay: a sensitive genotoxicity test for the detection of DNA damage. , 2005, Methods in molecular biology.

[12]  A. Collins,et al.  Use of single cell gel electrophoresis assays for the detection of DNA-protective effects of dietary factors in humans: recent results and trends. , 2009, Mutation research.

[13]  David K. Wood,et al.  Single cell trapping and DNA damage analysis using microwell arrays , 2010, Proceedings of the National Academy of Sciences.

[14]  P. Hanawalt,et al.  DNA repair in an active gene: Removal of pyrimidine dimers from the DHFR gene of CHO cells is much more efficient than in the genome overall , 1985, Cell.

[15]  A. Collins,et al.  A buccal cell model comet assay: development and evaluation for human biomonitoring and nutritional studies. , 2005, Mutation research.

[16]  C. Zetterström,et al.  DNA damage in lens epithelium of cataract patients in vivo and ex vivo , 2013, Acta ophthalmologica.

[17]  B. Burlinson,et al.  The in vitro and in vivo comet assays. , 2012, Methods in molecular biology.

[18]  Andrew Collins,et al.  Detection of Alu sequences and mtDNA in comets using padlock probes. , 2006, Mutagenesis.

[19]  V. Spanswick,et al.  Measurement of DNA interstrand crosslinking in individual cells using the Single Cell Gel Electrophoresis (Comet) assay. , 2010, Methods in molecular biology.

[20]  A. Collins,et al.  DNA repair as a biomarker in human biomonitoring studies; further applications of the comet assay. , 2012, Mutation research.

[21]  A. Collins,et al.  Increasing the resolution of the comet assay using fluorescent in situ hybridization--a review. , 2009, Mutagenesis.

[22]  E. Moustacchi,et al.  Analysis by alkaline comet assay of cancer patients with severe reactions to radiotherapy: Defective rejoining of radioinduced dna strand breaks in lymphocytes of breast cancer patients , 1999, International journal of cancer.

[23]  A. Collins,et al.  Detection of alkylation damage in human lymphocyte DNA with the comet assay. , 2001, Acta biochimica Polonica.

[24]  P. Olive,et al.  Radiation-induced apoptosis measured in TK6 human B lymphoblast cells using the comet assay. , 1993, Radiation research.

[25]  A. Collins,et al.  Oxidative DNA damage, antioxidants and DNA repair: applications of the comet assay. , 2001, Biochemical Society transactions.

[26]  R. Tice,et al.  Single cell gel/comet assay: Guidelines for in vitro and in vivo genetic toxicology testing , 2000, Environmental and molecular mutagenesis.

[27]  B. Johansson,et al.  Quantitative DNA damage and repair measurement with the yeast comet assay. , 2012, Methods in molecular biology.

[28]  A. Collins,et al.  Kiwifruit Protects Against Oxidative DNA Damage in Human Cells and In Vitro , 2001, Nutrition and cancer.

[29]  G. Brunborg,et al.  Twelve-gel slide format optimised for comet assay and fluorescent in situ hybridisation. , 2010, Toxicology letters.

[30]  R. Tice,et al.  A simple technique for quantitation of low levels of DNA damage in individual cells. , 1988, Experimental cell research.

[31]  Catherine C. Smith,et al.  hOGG1 recognizes oxidative damage using the comet assay with greater specificity than FPG or ENDOIII. , 2006, Mutagenesis.

[32]  Peter Wåhlin,et al.  Exposure to Ultrafine Particles from Ambient Air and Oxidative Stress–Induced DNA Damage , 2007, Environmental health perspectives.

[33]  C. Helma,et al.  Single-cell gel electrophoresis assays with human-derived hepatoma (Hep G2) cells. , 1999, Mutation research.

[34]  J. Gosálvez,et al.  New Application of the Comet Assay , 2011, The journal of histochemistry and cytochemistry : official journal of the Histochemistry Society.

[35]  K. Brauers,et al.  Development and validation of a modified comet assay to phenotypically assess nucleotide excision repair. , 2006, Mutagenesis.

[36]  Escodd Comparative analysis of baseline 8-oxo-7,8-dihydroguanine in mammalian cell DNA, by different methods in different laboratories: an approach to consensus. , 2002, Carcinogenesis.

[37]  A. Collins,et al.  Antioxidant supplementation decreases oxidative DNA damage in human lymphocytes. , 1996, Cancer research.

[38]  A. Collins,et al.  Enhancing the sensitivity of the comet assay as a genotoxicity test, by combining it with bacterial repair enzyme FPG. , 2013, Mutagenesis.

[39]  F. Granado,et al.  Serum carotenoids and oxidative DNA damage in human lymphocytes. , 1998, Carcinogenesis.

[40]  Amaya Azqueta,et al.  Towards a more reliable comet assay: optimising agarose concentration, unwinding time and electrophoresis conditions. , 2011, Mutation research.

[41]  M. Plewa,et al.  Chapter 4:The Use of Higher Plants in the Comet Assay , 2009 .

[42]  Amaya Azqueta,et al.  A comparative performance test of standard, medium- and high-throughput comet assays. , 2013, Toxicology in vitro : an international journal published in association with BIBRA.

[43]  A. Natarajan,et al.  Fluorescence in situ hybridization with comets. , 1997, Experimental cell research.

[44]  ESCODD,et al.  Measurement of DNA oxidation in human cells by chromatographic and enzymic methods , 2003 .

[45]  L. Barregard,et al.  Mutation Research/fundamental and Molecular Mechanisms of Mutagenesis Oxidatively Damaged Dna and Its Repair after Experimental Exposure to Wood Smoke in Healthy Humans , 2022 .

[46]  A. Collins,et al.  The comet assay in human biomonitoring: gene-environment interactions. , 2008, Mutagenesis.

[47]  A. Rapp,et al.  UV-A breakage sensitivity of human chromosomes as measured by COMET-FISH depends on gene density and not on the chromosome size. , 2000, Journal of photochemistry and photobiology. B, Biology.

[48]  P. Ostrosky-Wegman,et al.  Evaluation of DNA damage in exfoliated tear duct epithelial cells from individuals exposed to air pollution assessed by single cell gel electrophoresis assay. , 2000, Mutation research.

[49]  Lennart Möller,et al.  The effects on DNA migration of altering parameters in the comet assay protocol such as agarose density, electrophoresis conditions and durations of the enzyme or the alkaline treatments. , 2011, Mutagenesis.

[50]  A. Feinberg,et al.  Hypomethylation distinguishes genes of some human cancers from their normal counterparts , 1983, Nature.

[51]  Awadhesh N Jha,et al.  Reliable Comet assay measurements for detecting DNA damage induced by ionising radiation and chemicals. , 2006, Mutation research.

[52]  A. Collins,et al.  Possible involvement of XPA in repair of oxidative DNA damage deduced from analysis of damage, repair and genotype in a human population study. , 2006, Mutagenesis.

[53]  J. Mclean,et al.  Comet assay: rapid processing of multiple samples. , 2000, Mutation research.

[54]  Siu-Wai Choi,et al.  Cryopreservation and storage effects on cell numbers and DNA damage in human lymphocytes. , 2011, Biopreservation and biobanking.

[55]  P. Hanawalt,et al.  DNA repair : a laboratory manual of research procedures , 1981 .

[56]  E. Pinelli,et al.  Lead-induced DNA damage in Vicia faba root cells: potential involvement of oxidative stress. , 2011, Mutation research.

[57]  Gunnar Brunborg,et al.  High-throughput comet assay using 96 minigels. , 2013, Mutagenesis.

[58]  E. Seeberg,et al.  Release of normal bases from intact DNA by a native DNA repair enzyme , 1998, The EMBO journal.

[59]  K J Johanson,et al.  Microelectrophoretic study of radiation-induced DNA damages in individual mammalian cells. , 1984, Biochemical and biophysical research communications.

[60]  G. McKerr,et al.  Use of the Comet-FISH Assay to Demonstrate Repair of the TP53 Gene Region in Two Human Bladder Carcinoma Cell Lines , 2003, Radiation research.

[61]  A. Collins,et al.  Comet assay-based methods for measuring DNA repair in vitro; estimates of inter- and intra-individual variation , 2009, Cell Biology and Toxicology.

[62]  P. McMillan,et al.  Uracil misincorporation in human DNA detected using single cell gel electrophoresis. , 1997, Carcinogenesis.

[63]  H. McNulty,et al.  Global DNA and p53 region-specific hypomethylation in human colonic cells is induced by folate depletion and reversed by folate supplementation. , 2006, The Journal of nutrition.

[64]  Mahsa Karbaschi,et al.  Simplified method for the collection, storage, and comet assay analysis of DNA damage in whole blood. , 2011, Free radical biology & medicine.

[65]  H. Norppa,et al.  Chromosomal aberrations in lymphocytes predict human cancer: a report from the European Study Group on Cytogenetic Biomarkers and Health (ESCH). , 1998, Cancer research.

[66]  A. Collins,et al.  DNA damage and repair measured in different genomic regions using the comet assay with fluorescent in situ hybridization. , 2004, Mutagenesis.

[67]  J. Cadet,et al.  Problems in the measurement of 8-oxoguanine in human DNA. Report of a workshop, DNA oxidation, held in Aberdeen, UK, 19-21 January, 1997. , 1997, Carcinogenesis.

[68]  R. Fimmers,et al.  Single and repeated moderate consumption of native or dealcoholized red wine show different effects on antioxidant parameters in blood and DNA strand breaks in peripheral leukocytes in healthy volunteers: a randomized controlled trial [ISRCTN68505294] , 2005, Nutrition journal.

[69]  I. Witte,et al.  Performance of the comet assay in a high-throughput version. , 2009, Mutation research.

[70]  M. Fenech,et al.  An increased micronucleus frequency in peripheral blood lymphocytes predicts the risk of cancer in humans. , 2006, Carcinogenesis.

[71]  A. Collins,et al.  The comet assay: what can it really tell us? , 1997, Mutation research.

[72]  J. Abraham The international conference on harmonisation of technical requirements for registration of pharmaceuticals for human use , 2009 .

[73]  C. Bolognesi,et al.  Scientific opinion on genotoxicity testing strategies applicable to food and 3 feed safety assessment , 2011 .

[74]  M. Glei,et al.  Use of Comet-FISH in the study of DNA damage and repair: review. , 2009, Mutation research.

[75]  Takashi Omori,et al.  Statistical issues in the use of the comet assay. , 2008, Mutagenesis.

[76]  V. McKelvey-Martin,et al.  A comparison of baseline and induced DNA damage in human spermatozoa from fertile and infertile men, using a modified comet assay. , 1996, Molecular human reproduction.

[77]  A. Collins,et al.  Single-Cell Gel Electrophoresis Combined with Lesion-Specific Enzymes to Measure Oxidative Damage to DNA , 2012 .

[78]  K. Kohn,et al.  X-ray induced DNA double strand break production and repair in mammalian cells as measured by neutral filter elution. , 1979, Nucleic acids research.

[79]  Rajiv Kumar,et al.  Influence of DNA repair gene polymorphisms on the initial repair of MMS‐induced DNA damage in human lymphocytes as measured by the alkaline comet assay , 2008, Environmental and molecular mutagenesis.

[80]  E. Rojas,et al.  Environmental and occupational biomonitoring using the Comet assay. , 2009, Mutation research.

[81]  A. Collins,et al.  Direct enzymic detection of endogenous oxidative base damage in human lymphocyte DNA. , 1993, Carcinogenesis.

[82]  A. Collins,et al.  The carotenoid beta-cryptoxanthin stimulates the repair of DNA oxidation damage in addition to acting as an antioxidant in human cells. , 2008, Carcinogenesis.

[83]  P. Cook The organization of replication and transcription. , 1999, Science.

[84]  Steffen Loft,et al.  An ECVAG† trial on assessment of oxidative damage to DNA measured by the comet assay , 2009, Mutagenesis.

[85]  P. Schmezer,et al.  Cells of different tissues for in vitro and in vivo studies in toxicology: Compilation of isolation methods. , 1994, Toxicology in vitro : an international journal published in association with BIBRA.

[86]  David Kirkland,et al.  Improvements in the reliability of in vitro genotoxicity testing , 2011, Expert opinion on drug metabolism & toxicology.

[87]  R. Godschalk,et al.  Modulation of nucleotide excision repair in human lymphocytes by genetic and dietary factors , 2009, British Journal of Nutrition.

[88]  G. Koekemoer,et al.  Assessing the DNA methylation status of single cells with the comet assay. , 2010, Analytical biochemistry.

[89]  Amaya Azqueta,et al.  The influence of scoring method on variability in results obtained with the comet assay. , 2011, Mutagenesis.

[90]  D. Mitchell,et al.  UV‐sensitive rodent mutant cell lines of complementation groups 6 and 8 differ phenotypically from their human counterparts , 1997, Environmental and molecular mutagenesis.

[91]  Awadhesh N Jha,et al.  Ecotoxicological applications and significance of the comet assay. , 2008, Mutagenesis.

[92]  P. Cook,et al.  Characterization of nuclear structures containing superhelical DNA. , 1976, Journal of cell science.

[93]  David H Phillips,et al.  An ECVAG inter-laboratory validation study of the comet assay: inter-laboratory and intra-laboratory variations of DNA strand breaks and FPG-sensitive sites in human mononuclear cells. , 2013, Mutagenesis.

[94]  Amaya Azqueta,et al.  The comet assay, DNA damage, DNA repair and cytotoxicity: hedgehogs are not always dead. , 2013, Mutagenesis.

[95]  Diana Anderson,et al.  The comet assay in toxicology , 2009 .

[96]  A. Collins,et al.  Absorption and DNA protective effects of flavonoid glycosides from an onion meal , 2000, European journal of nutrition.

[97]  David Kirkland,et al.  Evaluation of the ability of a battery of three in vitro genotoxicity tests to discriminate rodent carcinogens and non-carcinogens III. Appropriate follow-up testing in vivo. , 2005, Mutation research.

[98]  Y. Sasaki,et al.  Simple detection of in vivo genotoxicity of pyrimethamine in rodents by the modified alkaline single-cell gel electrophoresis assay. , 1997, Mutation research.

[99]  Andrew Collins,et al.  Establishing the background level of base oxidation in human lymphocyte DNA: results of an interlaboratory validation study , 2005, FASEB journal : official publication of the Federation of American Societies for Experimental Biology.

[100]  A. Naccarati,et al.  Relationship between the capacity to repair 8-oxoguanine, biomarkers of genotoxicity and individual susceptibility in styrene-exposed workers. , 2007, Mutation research.

[101]  R. Tyrrell,et al.  Inter-laboratory Validation of Procedures for Measuring 8-oxo-7,8-dihydroguanine/8-oxo-7,8-dihydro-2′-deoxyguanosine in DNA , 2002, Free radical research.

[102]  Maria Dusinska,et al.  Measurement of DNA oxidation in human cells by chromatographic and enzymic methods. , 2003, Free radical biology & medicine.

[103]  A. Collins,et al.  Detection of Oxidised Purines and UV-induced Photoproducts in DNA of Single Cells, by Inclusion of Lesion-specific Enzymes in the Comet Assay , 1996 .

[104]  Andrew R Collins,et al.  Nutritional modulation of DNA repair in a human intervention study. , 2003, Carcinogenesis.

[105]  C. Guguen-Guillouzo,et al.  The application of 3D micropatterning of agarose substrate for cell culture and in situ comet assays. , 2010, Biomaterials.

[106]  David H Phillips,et al.  Inter-laboratory variation in DNA damage using a standard comet assay protocol. , 2012, Mutagenesis.