Fluorescent determination of chloride (Cl^-) in nanoliter samples.

Measurements of Cl^- in nanoliter samples, such as those collected during isolated, perfused tubule experiments, have been difficult, somewhat insensitive, and/or require custom-made equipment. We developed a technique using a fluorescent Cl^- indicator, 6-methoxy-N-(3-sulfopropyl) quinolinium (SPQ), to make these measurements simple and reliable.

This is a simple procedure that relies on the selectivity of the dye and the fact that Cl^-quenches its fluorescence. To measure millimolar quantities of Cl^- in nanoliter samples, we prepared a solution of 0.25 mM SPQ and loaded it into the reservoir of a continuous-flow ultramicrofluorometer, which can be constructed from commercially available components. Samples were injected with a calibrated pipette via an injection port, and the resultant peak fluorescent deflections were recorded. The deflections represent a decrease in fluorescence caused by the quenching effect of the Cl^- injected.

The method yielded a linear response with Cl^- concentrations from 5 to 200 mM NaCl. The minimum detectable Cl^- concentration was approximately 5 mM. The coefficient of variation between 5 and 200 mM was 1.7%. Resolution, defined as two times the standard error divided by the slope, between 10 and 50 mM and between 50 and 200 mM was 1 mM and 2.6 mM, respectively. Furosemide, diisothiocyanostilbene-2,2′-disulfonic acid and other nonchloride anions (HEPES, HCO₃, SO₄, and PO₄) did not interfere with the assay, whereas 150 mM NaBr resulted in a peak height greater than 150 NaCl. In addition, the ability to measure Cl^- did not vary with pH within the physiological range.

We developed an easy, accurate, and sensitive method to measure Cl^- concentration in small aqueous solution samples.