Cell-adhesion to crystal surfaces. Adhesion-induced physiological cell death.

Abstract

Cultured epithelial cells interact massively, rapidly and stereospecifically with the ¿011¿ faces of calcium (R,R)-tartrate tetrahydrate crystals. It was suggested that the massive rapid adhesion represents an exaggerated and isolated form of the first initial events in the attachment of cultured cells to conventional tissue culture surfaces (Hanein, et al., Cells and Materials, 5, 197-210; 1995). Attachment is however not followed by normal cell spreading and development of focal adhesions, but results in massive cell death. In this study, the fate of the crystal-bound cells was characterized by electron microscopy, flow cytometry and microscopic morphometry and was found to display the characteristics of physiological cell death. We show that the direct interaction with the highly homogenous and repetitive ¿011¿ faces per se does not trigger the transduction of lethal transmembrane signals. We suggest that the excessive direct interactions between the cell membrane and the crystal, by impairing cell motion, prevent the evolution of RGD-dependent cell adhesion. This implies that the deprivation of proper extracellular matrix (ECM)-receptor contacts of substrate-attached epithelial cells eventually triggers physiological cell death.