Upon exposures of Ehrlich ascites carcinoma cells to heat shock (44 degrees, 1 hr), oxidative stress or energy deprivation, their DNA undergoes fragmentation (35-45% after 5 hrs of incubation) which is considered as a hallmark of apoptosis. Prior to DNA fragmentation the cells exhibited blebbing (55-90% after 1 hr), thus being suggestive of cytoskeletal damage and a 1.5-2-fold increase in the Triton-insoluble protein concentration (protein aggregation) after 3 hrs. Rapid cell death (75% after 4 hrs) occurred only under oxidative stress. Electrophoresis of the Triton-insoluble protein fraction revealed that the common feature of all stress exposures used in this study was a dramatic increase in the aggregation of cytoskeletal proteins--actin and the 57 kDa protein. No dependence of DNA fragmentation on intracellular Ca2+ increase was found. Both DNA fragmentation and protein aggregation were suppressed by glucose, whereas Zn2+, an endonuclease inhibitor, suppressed only DNA fragmentation without any effect on protein aggregation. It is suggested that cytoskeletal damage may trigger tumor cell apoptosis.