In this study, we developed a highly sensitive assay for xanthine oxidoreductase (XOR) activity utilizing a combination of [(13) C2 ,(15) N2 ]xanthine and liquid chromatography (LC)/triple quadrupole mass spectrometry (TQMS). In this assay, the amount of [(13) C2 ,(15) N2 ]uric acid (UA) produced by XOR was determined by using LC/TQMS. For this assay, we synthesized [(13) C2 ,(15) N2 ]xanthine as a substrate, [(13) C2 ,(15) N2 ]UA as an analytical standard, and [(13) C3 ,(15) N3 ]UA as an internal standard. The [(13) C2 ,(15) N2 ]UA calibration curve obtained using LC/TQMS under the selected reaction monitoring mode was evaluated, and the results indicated good linearity (R(2) = 0.998, weighting of 1/x(2) ) in the range of 20 to 4000 nM. As a model reaction of less active samples, the XOR activity of serial-diluted mouse plasma was measured. Thereby, the XOR activity of the 1024-fold-diluted mouse plasma was 4.49 ± 0.44 pmol/100 μL/h (mean ± standard deviation, n = 3). This value is comparable to the predicted XOR activity value of healthy human plasma. Hence, this combination method may be used to obtain high-sensitivity measurements required for XOR activity analysis on various organs or human plasma.
Keywords: LC/TQMS; stable isotope-labeled substrate; uric acid; xanthine; xanthine oxidoreductase activity.
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