Rapid quantitation of NAD+/NADH and NADPH/NADP+ with mass spectrometry by using calibration constants
Qiuyuan Guo, Mike Lingjue Wang, Michaela Schwaiger-Haber, Xiangfeng Niu, Shanshan Zhang, Leah P. Shriver, Gary J. Patti

TL;DR
This paper introduces a faster and more accurate method for measuring NAD+/NADH and NADPH/NADP+ ratios using mass spectrometry and calibration constants.
Contribution
A novel method for rapid and accurate redox ratio quantitation using calibration constants in mass spectrometry.
Findings
Relative signal intensities of oxidized and reduced cofactors change at a consistent rate across experiments.
Calibration constants enable accurate redox ratios without authentic or isotopically labeled standards.
Mass spectrometry with calibration constants outperforms commercial colorimetric assays in accuracy.
Abstract
NAD+/NADH and NADPH/NADP+ are important indicators of cellular redox status, but they cannot be reliably calculated from the relative intensities of mass spectrometry signals alone. Establishing accurate redox ratios by mass spectrometry has historically required converting relative signal intensities into absolute concentrations, which is a time-consuming process that limits rapid analysis. Here, we describe a simpler strategy to determine NAD+/NADH and NADPH/NADP+ by using mass spectrometry. While ionization is strongly influenced by factors such as instrument drift and sample type, we discovered that the relative signal intensities of oxidized and reduced cofactors change at the same rate across experiments performed on the same mass spectrometer. That rate can be experimentally determined and expressed as a calibration constant. Using calibration constants, relative intensities of…
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Taxonomy
TopicsMetabolomics and Mass Spectrometry Studies · Mass Spectrometry Techniques and Applications · Microbial Metabolic Engineering and Bioproduction
