Calibration of fluorescence intensities to quantify antibody binding surface determinants of cell subpopulations by flow cytometry

Abstract

Quantitative indirect immunofluorescence analysis by flow cytometry was used to determine the mean number of antibody binding sites per cell in a small subpopulation of rat brain cells expressing low levels of a cell surface differentiation antigen recognized by monoclonal antibody (Mab) RB13-6 (Kindler-Röhrborn et al.: Differentiation 30:53–60, 1985). For these non-disjunct distributions of fluorescence intensities, the cut-off border between antigen-positive and antigen-negative cells was defined by a statistical test. To eliminate the influence of accidental disturbances leading to incorrect statistical decisions, the curves for antigen-negative cells were fitted according to cell number and shape. The flow cytometer was calibrated with the use of a clonal cell line for which the average number of Mab RB13-6 binding sites per cell had previously been determined by radioimmunoassay and Scatchard-plot analysis. Using this analytical procedure, both the proportion of Mab binding brain cells and the mean number of Mab binding sites per Mab binding cell could be determined as a function of developmental stage.