Injury to primary cultures of rat heart endothelial cells by hypoxia and glucose deprivation

Summary Primary cultures of rat heart endothelial cells were subjected to simulated conditions of ischemia: hypoxia and glucose deprivation for 4 and 24 hr. Cellular injury was evaluated by measuring changes in viability, total protein, cellular morphology, and leakage of cytoplasmic enzymes from the cells into the culture medium. Deprivation of oxygen and glucose for 4 or 24 hr did not lethally injure the cells as noted by no change in cell viability, morphology, and total protein when compared to controls. However, reversible or nonlethal cellular injury was produced as reflected by a significant release of lactate dehydro-genase (LDH) from the cells into the medium after treatment with hypoxia and glucose deprivation for 4 or 24 hr. When the cultures were deprived of glucose, but were oxygenated, cellular injury was not evident after 24 hr. Deprivation of oxygen but not glucose resulted in significant loss of LDH after 4 or 24 hr. When the cultures were allowed to recover after oxygen and glucose deprivation in complete medium containing 1000 mg glucose per l and a normal atmosphere of 20% O₂, they had levels of LDH leakage comparable to those of control cultures. This study was supported by Research Grant HL 18647 from the National Heart, Lung, and Blood Institute and by a National Chicano Council on Higher Education Post-Doctoral Fellowship awarded to D. Acosta from the Ford Foundation. Additional support was provided to D. Acosta by a Faculty Research Assignment Award from the University of Texas Research Institute.