An improved method to measure nitrate/nitrite with an NO-selective electrochemical sensor

Nitric oxide (NO) produced from NO synthase(s) (NOS) is an important cell signaling molecule in physiology and pathophysiology. It remains challenging, however, to measure NO accurately and reproducibly in many cell types producing relatively low levels of NO from the enzymes such as endothelial NO synthase (eNOS). In the present study, we describe a very sensitive and convenient analytical method that affords measurement of 1 to 2 nM concentration of NO_x (nitrite plus nitrate) in culture media. In the present study, we used an ultra-sensitive NO-selective electrochemical sensor (AmiNO700) in combination with a highly efficient nitrate conversion method, which coupled the nitrate reductase step with the glucose-6-phosphate dehydrogenase system. An aliquot of conditioned culture media was first treated with nitrate reductase, NADPH, glucose-6-phosphate dehydrogenase and glucose-6-phosphate to convert nitrate to nitrite quantitatively. The nitrite (that is present originally plus the reduced nitrate) was then reduced to equimolar NO in an acidic iodide bath while NO was being detected by the sensor. With this analytical method, we can quantitatively and reliably measure basal and stimulated NO release from cultured endothelial cells. We believe this improved assay should be useful in measuring a wide range of NO levels, especially the low but physiologically relevant levels, in many cell types.