Concanavalin A induced apoptosis in fibroblasts: The role of cell surface carbohydrates in lectin mediated cytotoxicity

Abstract

Cell surface carbohydrates play important regulatory roles during development and in tissue homeostasis by mediating cellular signalling. Concanavalin A (con A) cross links mannose residues on cell surfaces. We used con A to examine the role of cell surface carbohydrates in apoptosis. Balb/c 3T3 (3T3) and diploid human gingival fibroblasts (HGF) incubated with con A (50 μmg/mL) exhibited rounding, reduction of cell size, loss of cytoskeletal definition, nuclear condensation, and ultrastructural changes consistent with apoptotic cell death. However oligonucleosomal DNA fragmentation was not observed. The sugar methyl-α-D-mannopyranoside (MADM) competes for binding sites with con A but failed to induce-apoptosis. Cell survival assays after con A treatment demonstrated a concentration dependent (5–500 μg/mL) loss of cell viability in 3T3 and HGF cells which was blocked by MADM. The relationship between cell surface binding of con A and cell death was studied in 3T3 cells labelled with varying concentrations of FITC-con A. Flow cytometry and cell survival analyses revealed that smaller cells with lower total cell surface FITC-con A binding sites were ∼8 times more susceptible to cell death than larger cells with higher number of binding sites. This suggests a positive relationship between cell size, number of con A binding sites, and cell death. Flow cytometric cell cycle analysis of HGF cells showed a 46% reduction in the proportion of G₁ phase cells but there was little change in the relative proportions of S and G_2+M phase cells. ₃H-thymidine labelling of con A treated cells showed a five-fold decrease (chi sq; P < 0.05) in the percentage of labelled cells, indicating blockade of cell cycle transit into S. Thus, cell death occurred predominantly in G₁, possibly due to inhibition of protein synthesis which in turn prevented entry of cells into S phase. ³⁵S-methionine uptake in con A treated cells was significantly reduced (∼42% con A 50 μg/mL; ∼67% con A 500 μg/mL; P < 0.05) compared to untreated controls indicating inhibition of de novo protein synthesis. SDS-PAGE of total cellular proteins confirmed reduction of predominantly lower molecular mass proteins after con A treatment. Con A treatment (50 μg/mL) induced a 25% reduction of free intracellular calcium ion concentration over 30 min suggesting that calcium dependent enzymes and translational mechanisms may be inhibited. Collectively, these results indicate that con A binding of cell surface carbohydrates can induce apoptotic cell death in fibroblastic cells due in part to protein synthesis inhibition. © 1995 Wiley-Liss Inc.