Nucleic Acids Research, 2002, Vol. 30, No. 2 e7
© 2002 Oxford University Press
Quantification of 8-oxo-guanine and guanine as the nucleobase, nucleoside and deoxynucleoside forms in human urine by high-performance liquid chromatography–electrospray tandem mass spectrometry
Department of Clinical Pharmacology Q7642, Rigshospitalet, Tagensvej 20, DK-2200 Copenhagen N, Denmark
Oxidative DNA damage, linked pathogenically to a variety of diseases such as cancer and ageing, can be investigated by measuring specific DNA repair products in urine. Within the last decade, since it was established that such products were excreted into urine, progress in their analysis in urine has been limited. Guanine is the DNA base most prone to oxidation. We present a method for determination of the urinary 8-hydroxylated species of guanine, based on direct injection of urine onto a high-performance liquid chromatography (HPLC)–tandem mass spectrometry system. The analysis covers the 8-hydroxylated base, ribonucleoside and deoxynucleoside, and the corresponding non-oxidised species. Without pre-treatment of urine the detection limits for the nucleobases are 
2 nM (50 fmol injected) and for the nucleosides 0.5 nM (12.5 fmol injected). Previously, liquid chromatography of the nucleobases has been problematic but is made possible by low-temperature reverse-phase C18 chromatography, a method that increases retention on the column. In the case of the nucleosides, retention was almost total and provides a means for on-column concentration of larger urine samples and controlled high peak gradient elution. The total excretion of 8-hydroylated guanine species was 212 nmol/24 h. The oxidised base accounted for 64%, the ribonucleoside for 23% and the deoxynucleoside for 13%, indicating substantial oxidation of RNA in humans. In rat urine, excretion of the oxidised base was more dominant, the percentages of the oxidised base, ribonucleoside and deoxynucleosides being 89, 8 and 3%. This finding is at odds with previous reports using immunoaffinity pre-purification and HPLC–electrochemical detection analysis. The developed method now makes it possible to measure oxidative nucleic acid stress to both RNA and DNA in epidemiological and intervention settings, and our findings indicate a substantial RNA oxidation in addition to DNA oxidation. The small volume needed also makes the method applicable to small experimental animals.
* To whom correspondence should be addressed. Tel: +45 35 45 76 71; Fax: +45 35 45 27 45; Email: henrikep{at}rh.dk
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