Cell surface changes accompanying aging in human diploid fibroblasts: III. Division age and senescence revealed by concanavalin A-mediated red blood cell adsorption

Abstract

The relationship between cell size, [ 3H]thymidine incorporation capacity, and cell surface property of human diploid fibroblasts was investigated using the concanavalin A (ConA)-mediated red blood cell (RBC) adsorption assay. Small cells in late passage populations adsorbed RBCs well with the RBC coating method (in which ConA-coated RBCs are adsorbed to fibroblasts) as did large cells of this population, while small cells in early passage populations did not. The RBC adsorption capacity of rapidly dividing cells with this method differed among young, middle-aged and old cell populations. The results suggest that temporal cell size and [ 3H]thymidine incorporating capacity is not a measure of the division age of human diploid cells at the individual cell level. On the other hand, RBC adsorption with the fibroblast coating method (in which RBCs are adsorbed to ConA-coated fibroblasts) occurred to non-dividing cells of the populations. Thus, the increase in RBC adsorption with this method is considered to be a reflection of the increase in non-dividing cells at phase III. Our results support the hypothesis that RBC adsorption with the RBC and fibroblast-coating methods represents a cell surface marker for division age and senescence of human diploid cells, respectively, at the individual cell level.