Kenneth A. Davis

Determination of CD4 antigen density on cells: Role of antibody valency, avidity, clones, and conjugation†

The number of R-phycoerythrin (R-PE)-conjugated antibodies bound to a cell can be quantitated on a flow cytometer by using beads with known numbers of attached R-PE molecules (QuantiBRITE PE). Using these reference beads, we have observed that a number of factors affect the accuracy of the quantitation and conclusions about epitope density. These factors include valence of antibody binding, the use of antibody fragments (Fabs) versus intact monoclonal antibodies (mAbs), fixation, the purity of the conjugate (i.e., percentage of 1:1 ratios), dissociation rate, the use of washed versus unwashed preparations, and the location of epitope on target antigen. We used CD4 on T cells as a model to explore these challenges in detail. We conclude that CD4+ T cells bind approximately 49,000 CD4 (Leu 3a) antibody molecules, that this binding is bivalent, and therefore that there are approximately 98,000 CD4 antigen molecules on the surface of these cells.

Quantitation of CD38 expression using QuantiBRITE beads.

The QuantiBRITE bead method was compared with the CD4 biological calibration method for quantitation of CD38 expression on CD8+ T-lymphocytes of Multicenter AIDS Cohort Study participants. Results were expressed as CD38 antibodies bound per cell (ABCs) and were the same with the two methods provided two conditions were met. These were the use of repurified (> 95% of the monoclonal antibodies [mAbs] have 1 phycoerythrin [PE] molecule per mAb) CD38-PE for both methods and use of repurified CD4-PE to calculate the relative fluorescence intensity multiplier for the CD4 biological calibration method. Our results indicate that the prognostic significance of CD38 values obtained using the QuantiBRITE method can be interpreted using previously published reports (Liu et al.: J Acquir Immune Defic Syndr Hum Retrovirol 16:83-92, 1997 and 18:332-340, 1998). Sample preparation using NH4Cl and FACS lysing solution gave similar results for CD38 relative fluorescence intensity. Dilution into either phosphate-buffered saline with 2% fetal calf serum and 0.1% sodium azide or fixation in 1% paraformaldehyde for 1 or 24 h also gave similar results. In experiments using Raji cells, which express high levels of CD38, the valence of binding of the intact Leu 17 antibody was approximately 68% bivalent and approximately 32% monovalent. This emphasizes the complexity of determining antigen density from ABCs. We conclude that repurified PE conjugates of CD38, which can be consistently made, together with QuantiBRITE PE beads, provide a convenient and reliable method for quantitation of CD38 expression as ABCs.

A novel two-color flow cytometric assay for the detection of Cryptosporidium in environmental water samples

BACKGROUND Cryptosporidium is an important waterborne pathogen. Detection of Cryptosporidium in concentrated water samples depends on oocyst isolation using immunomagnetic separation (IMS) and/or fluorescence-activated cell sorting (FACS), followed by confirmation using immunofluorescence staining (IFA) and fluorescence microscopy. These methods require highly trained microscopists for oocyst identification and confirmation. Analysis is hampered due to the presence of autofluorescent particles coupled with particles binding nonspecifically with the monoclonal antibodies (mAbs) used for detection. Flow cytometry (FCM) has the potential to be a more specific method for oocyst detection, but such a system would require more than one selection parameter. METHODS Various mAbs from commercial suppliers were paired with CRY104-PE and evaluated. The mAb combination that best discriminated stained oocyst from detritus was optimized and compared to Cryptosporidium detection utilizing one-color IFA/FACS. RESULTS A highly specific two-color assay employing the IgG(1) mAb CRY104 was developed. The assay resulted in reductions, up to 20-fold, in the number of non-Cryptosporidium particles detected. The addition of a second selection parameter improved microscopic analysis times and simplified oocyst confirmation by microscopists. CONCLUSIONS A two-color assay employing competing surface mAbs reduces the number of fluorescent particles sorted, thus improving FCM detection methods for Cryptosporidium.

Flow cytometric analysis of immunoprecipitates: High-throughput analysis of protein phosphorylation and protein–protein interactions

BACKGROUND Activation-induced protein phosphorylation can be studied by Western blotting, but this method is time consuming and depends on the use of radioactive probes for quantitation. We present a novel assay for the assessment of protein phosphorylation based on latex particles and flow cytometry. METHODS This method employs monoclonal antibodies coupled to latex particles to immobilize protein kinase substrates. Their phosphorylation status is assessed by reactivity with phosphoepitope-specific antibodies. The amount of immobilized protein on the particles was analyzed by direct or indirect immunofluorescence with antibodies to nonphosphorylated epitopes. RESULTS The assay allowed measurement of phosphorylation of multiple protein kinase substrates in stimulated T cells, including the zeta chain of the T-cell receptor, ZAP-70, CD3, CD5, SHP-1, and ERK-2, using 1-3 microg of total cell protein per sample. The assay provided high resolution of kinetics of phosphorylation and dephosphorylation. Interactions of protein kinase substrates with associated signaling molecules were demonstrated. CONCLUSIONS The novel assay allows high-throughput quantitative measurement of protein modifications during signal transduction.