Interaction of concanavalin A with differentiated and undifferentiated murine neuroblastoma cells.

Tritium-labeled acetyl-concanavalin A (³H-Con A) was used to study its kinetics of binding at 0 °C to murine neuroblastoma cells (clone neuro 2-A) grown in the differentiated (monolayer) and Undifferentiated (spinner) states. The binding of ³H-Con A to both cell types gives sigmoidal saturation curves, suggesting positively cooperative binding of the lectin. The Hill coefficient is 1.75 for differentiated and 1.36 for Undifferentiated cells. The maximal number of ³H-Con A molecules bound per cell is 2.3 × 10⁷ and 3.4 × 10⁷ for differentiated and Undifferentiated cells, respectively, and the apparent rate constants for formation of the lectin-cell complex are 6.13 × 10², m^?1, s^?1 for the Undifferentiated and 6.68 × 10², m^?1, s^?1 for the differentiated cells. The lectin bound to spinner cells does not dissociate spontaneously to any measurable extent over a 60-min period at 0 or 37 °C, but the lectin-cell complex dissociates rapidly after addition of α-methyl-d-mannopyranoside. At 37 °C, this sugar causes virtually complete dissociation of the cell-lectin complex within 30 min. The ³H-Con A dissociated from spinner cells is indistinguishable from the original ³H-Con A by sodium dodecyl sulfate-urea polyacrylamide gel electrophoresis, gel filtration through Bio-Gels P-30 and P-100, and specific binding to spinner cells. Both the original and the dissociated ³H-Con A are dimers at pH 7.4. The sugar-induced dissociation of the labeled lectin from spinner cells is not accompanied by shedding or inactivation of the lectin binding sites of the cell surface.