Glutaraldehyde fixation and the mechanism of erythrocyte agglutination by concanavalin a and soybean agglutinin

Abstract

To evaluate the importance of lectin receptor mobility and clustering for enhanced cell agglutinability, the effect of glutaraldehyde fixation on the agglutinability of human erythrocytes by concanavalin A and soybean agglutinin was investigated. Agglutinability was evaluated in unperturbed Microtiter ® plates. Fixation increased slightly the agglutinability of the erythrocytes by both lectins. Fixation did not alter trypsin-enhanced agglutinability. Furthermore, when fixed erythrocytes were trypsinized, their agglutinability increased to the level of unfixed, trypsinized erythrocytes. The kinetics of agglutination of fixed and unfixed erythrocytes were monitored in an electronic particle counter. The shear forces associated with the kinetic experiments diminished fixed-cell to fixed-cell agglutination, i.e., both lectins gave slower kinetics of agglutination with fixed erythrocytes than with unfixed erythrocytes. In contrast, the kinetics of concanavalin A-mediated agglutination of trypsinized-fixed erythrocytes mixed with equal numbers of trypsinized-unfixed erythrocytes were indistinguishable from the rapid kinetics of agglutination of trypsinizedunfixed erythrocytes alone. Light microscopy revealed aggregates composed of fixed and unfixed erythrocytes. We conclude that glutaraldehyde fixation does not diminish the agglutinability of human erythrocytes under low-shear conditions. Our results indicate that the enhanced agglutination of trypsinized erythrocytes is not dependent on clustering of lectin receptors. The disruption of agglutination of fixed erythrocytes by shear forces that do not disrupt agglutination of fixed erythrocytes with unfixed erythrocytes suggests that the rigidity of the fixed erythrocyte may prevent stable aggregate formation by fixed erythrocytes alone.