Long-distance interactions between ehrlich ascites tumour cells

Abstract In previous work, electron micrographs were made of adjacent surfaces of aldehyde-fixed, Ehrlich ascites tumour cells cultured on coverslips, after reacting some of their negatively charged surface sites with colloidal iron hydroxide (CIH) particles. It was observed that microvilli from one cell were aligned with intermicrovillus regions on another, where the density of the adsorbed CIH particles was significantly lower than in adjacent regions. Alignment, which was considered to represent interactions between the two peripheral cellular regions, took place when these regions were apparently separated by more than 200 nm, in an environment of physiologic ionic strength ( 0·145 m NaCl). In this communication we attempt to find feasible mechanisms for the alignment phenomenon in physical terms, in cases where the observed separation of 200 nm is correct, and in cases where the distances are overestimated due to preparative artifacts. It is concluded, that at distances of separation in excess of 200 nm, one feasible mechanism for alignment is that net negatively charged macromolecules diffusing out of cells in the region of their microvilli, electrostatically repel CIH-binding anionic sites in the lipid-rich “fluid” matrix of the periphery of the opposed cell, causing gaps in their distribution. The role of electrostatic and electrodynamic (van der Waals') forces in causing alignment is also discussed in terms of distance of separation. This communication is concerned with the interpretation in terms of various interactions, of electron micrographs showing evidence of alignment between microvilli from one cell with specific areas of another.