High-resolution microanalysis of nitrite and nitrate in neuronal tissues by capillary electrophoresis with conductivity detection

Nitrites and nitrates are widely used reporters of endogenous activity of nitric oxide synthases (NOS), an important group of enzymes producing the gaseous signal molecule nitric oxide (NO). However, due to the great chemical heterogeneity of neuronal tissues, standard analytical protocols for evaluation of neuronal nitrite/nitrate concentrations are inefficient. We optimized a high-performance capillary zone electrophoresis (CZE) technique to analyze nitrite/nitrate concentrations in submicroliter samples from mammalian neuronal tissues. The measurements were made using a PrinCE 476 computerized capillary electrophoresis system with a Crystal 1000 contact conductivity detector. Isotachophoretic stacking injection of 1000- to 10 000-fold diluted samples, which had been pretreated with a custom-designed solid-phase microextraction (SPME) cartridge, was employed to assay micromolar and nanomolar nitrite and nitrate levels in the presence of the high millimolar chloride concentrations characteristic of many biological samples. In the presented technique, a 10-mul volume of diluted ganglionic sample was used for chloride removal and sample cleanup. The method yields high analytical performance, including good reproducibility, resolution, and accuracy. The limits of detection relative to undiluted sample matrix were 8.9 nM (0.41 ppb) and 3.54 nM (0.22 ppb) for nitrite and nitrate, respectively. In addition, this technique resolves other anions that are present in neuronal tissues at sub-nanomolar concentrations and can be broadly applied for high-throughput anionic profiling. In rat dorsal root ganglia, endogenous levels of nitrate (231 +/- 29 muM; n=6) and nitrite (24-96 muM) were found. These concentrations exceeded those previously found in neuronal tissue homogenates using different techniques. (C) 2002 Elsevier Science B.V. All rights reserved.