Neutrophil function screening in patients with chronic granulomatous disease by a flow cytometric method.

Neutrophils from patients with chronic granulomatous disease (CGD) fail to produce a significant oxidative burst following stimulation. We have evaluated the use of flow cytometry and the dye 2',7'-dichlorofluorescein diacetate (DCF) for routine screening for deficiencies of neutrophil oxidative burst. A range for DCF fluorescence for phorbol myristate acetate stimulated and non-stimulated neutrophils was established based on data from 52 healthy adults. Samples from three patients with suspected neutrophil dysfunction, three patients with X-linked CGD, and one patient with autosomal recessive (AR) CGD were evaluated with both the DCF assay and the quantitative nitroblue tetrazolium dye reduction (NBT) test. For the DCF test, the ratio of mean fluorescence intensity of stimulated to non-stimulated neutrophils was less than 5 for CGD patients and from 16 to greater than 50 for healthy individuals. With the DCF test, two populations of neutrophils could be identified in samples from four carriers of X-linked CGD, although two carriers of AR CGD had NBT and DCF results in the normal range. Our data suggest the DCF test is a sensitive and convenient method for detecting CGD.

Development of a microsphere-based fluorescent immunoassay and its comparison to an enzyme immunoassay for the detection of antibodies to three antigen preparations from Candida albicans.

A sensitive assay for the simultaneous detection of multiple serum antibodies by flow cytometry was developed. Polystyrene microspheres of 5, 7 and 9.3 micron in diameter were used as solid supports for the attachment of three different antigen preparations from Candida albicans. These antigens were a whole cell extract; a cytoplasmic protein extract and a cell wall polysaccharide. Microsphere-associated fluorescence was quantitated by flow cytometry, with the different sized microspheres analyzed separately using electronic volume gating. This procedure allowed for different antigen-coated microspheres with discrete sizes to be analyzed independently for immunofluorescence. The assay detected antibody levels in human serum at dilutions up to 10(-6) and provided complete discrimination, using all three antigen preparations, between antibody levels seen in healthy subjects and those seen in patients suspected of having a systemic Candida infection. A standard enzyme immunoassay (EIA) failed to provide complete discrimination between healthy subjects and patient samples: at least 17% of patient values fell within the healthy subject range using all three antigen preparations. The microsphere assay which allowed for the simultaneous detection of multiple antibodies, has increased dynamic range over EIA and provides for better discrimination of patients from healthy subjects in comparison to EIA. Precise quantitation of antibodies is possible and the rapid analysis of thousands of microspheres markedly enhances the statistical accuracy of the assay. We suggest this assay is likely to have many other important applications in immunologic testing.