Intercellular adhesion in butyrate-treated HeLa S3 cultures : Flow cytometric analysis

The application of DNA flow cytometry (FCM) for analysis of sodium butyrate-induced intercellular adhesion in human carcinoma (HeLa S3) cell cultures is described. To prepare cell suspensions for FCM, the monolayers of cells were treated with medium containing 10% serum, 0.2% non-ionic detergent Triton X-100 and 1 μg/ml DNA fluorochrome 4,6′-diamidino-2-phenylindole (DAPI). Total numbers of single cells, and aggregates containing two, three, four or more cells, were determined from DNA histograms. In cultures treated with 5 mM butyrate for 16 h, more than 80% of the cells were aggregated. Intercellular adhesion began to appear 8 h after addition of butyrate, was maximal at 16–24 h and stable in the presence of butyrate, but disappeared 24 h after its removal. Treatment with EDTA (0.2%) dissociated only 50%, whereas trypsin (0.1%) separated all cell aggregates into single cells. Actinomycin D (actD) (0.5 μg/ml) prevented cell adhesion while blocking of cells in S phase with 250 μM 5-fluorouracil or 10 μM methotrexate did not interfere with aggregation. The number of cell aggregates estimated from DNA histograms of butyrate-treated HeLa S3 cultures was the same after staining with DAPI in the presence of Triton X-100 or after vital staining with Hoechst 33342. The DNA content was used as a marker to estimate the cellular composition of aggregates in mixed cultures of HeLa S3 cells and human fibroblasts (U cells). Intercellular adhesion in these cultures was seen only between HeLa S3 cells, indicating specificity of butyrate-induced cell aggregation. FCM provides fast automatic measurement of cell aggregate formation, estimates frequency of aggregates containing different cell numbers, shows participation of cells at different cycle phases in aggregates, and allows the detection of homotypic from heterotypic cell aggregates if the interacting cells have different DNA ploidy.