Nieminen A L, Gores G J, Wray B E, Tanaka Y, Herman B, Lemasters J J
Department of Cell Biology & Anatomy, School of Medicine, University of North Carolina at Chapel Hill.
Cell Calcium. 1988 Dec;9(5-6):237-46. doi: 10.1016/0143-4160(88)90004-8.
Calcium dependence of bleb formation and cell death was evaluated in rat hepatocytes following ATP depletion by metabolic inhibition with KCN and iodoacetate ('chemical hypoxia'). Cytosolic free Ca2+ was measured in single cells by ratio imaging of Fura-2 fluorescence using multiparameter digitized video microscopy. Cells formed surface blebs within 10 to 20 minutes after chemical hypoxia and most cells lost viability within an hour. An increase of cytosolic free Ca2+ was not required for bleb formation to occur. One to a few minutes prior to the onset of cell death, free Ca2+ increased rapidly in high Ca2+ buffer (1.2 mM) but not in low Ca2+ buffer (less than 1 microM). In either buffer, the rate of cell killing was the same. As the onset of cell death was approached in both high and low Ca2+ buffers, Fura-2 began to leak from the cells at an accelerating rate indicating rapidly increasing plasma membrane permeability. In high Ca2+ buffer, cytosolic free Ca2+ increased in parallel with dye leakage. No regional changes in cytosolic free Ca2+ were observed during this metastable period of increased membrane permeability. In many experiments, actual rupture of cell surface blebs could be observed which led to micron-size discontinuities of the cell surface and cell death. We conclude that a metastable period characterized by increasing plasma membrane permeability marked the onset of cell death in cultured hepatocytes which culminated in rupture of a cell surface bleb. An increase of cytosolic free Ca2+ was not required for the metastable state to develop or cell death to occur.
通过用氰化钾和碘乙酸盐进行代谢抑制(“化学性缺氧”)使大鼠肝细胞中的ATP耗竭后,评估了气泡形成和细胞死亡对钙的依赖性。使用多参数数字化视频显微镜,通过Fura-2荧光比率成像测量单个细胞中的胞质游离Ca2+。化学性缺氧后10至20分钟内细胞形成表面气泡,大多数细胞在一小时内失去活力。气泡形成并不需要胞质游离Ca2+增加。在细胞死亡开始前一到几分钟,游离Ca2+在高Ca2+缓冲液(1.2 mM)中迅速增加,但在低Ca2+缓冲液(小于1 microM)中没有增加。在任何一种缓冲液中,细胞杀伤率都是相同的。当高Ca2+和低Ca2+缓冲液中的细胞都接近死亡开始时,Fura-2开始以加速速率从细胞中泄漏,表明质膜通透性迅速增加。在高Ca2+缓冲液中,胞质游离Ca2+与染料泄漏平行增加。在膜通透性增加的这个亚稳期内,未观察到胞质游离Ca2+的区域变化。在许多实验中,可以观察到细胞表面气泡的实际破裂,这导致细胞表面出现微米大小的间断并导致细胞死亡。我们得出结论,以质膜通透性增加为特征的亚稳期标志着培养的肝细胞中细胞死亡的开始,最终导致细胞表面气泡破裂。亚稳状态的发展或细胞死亡的发生并不需要胞质游离Ca2+增加。
