Department of Ophthalmology and Visual Sciences, University of Wisconsin-Madison, 1300 University Ave, Madison, WI, 53706, USA.
Wake Forest University School of Medicine, Winston-Salem, NC, USA.
Apoptosis. 2021 Feb;26(1-2):132-145. doi: 10.1007/s10495-020-01654-w. Epub 2021 Jan 11.
Recent advancements in live cell imaging technologies have identified the phenomenon of intracellular propagation of late apoptotic events, such as cytochrome c release and caspase activation. The mechanism, prevalence, and speed of apoptosis propagation remain unclear. Additionally, no studies have demonstrated propagation of the pro-apoptotic protein, BAX. To evaluate the role of BAX in intracellular apoptotic propagation, we used high speed live-cell imaging to visualize fluorescently tagged-BAX recruitment to mitochondria in four immortalized cell lines. We show that propagation of mitochondrial BAX recruitment occurs in parallel to cytochrome c and SMAC/Diablo release and is affected by cellular morphology, such that cells with processes are more likely to exhibit propagation. The initiation of propagation events is most prevalent in the distal tips of processes, while the rate of propagation is influenced by the 2-dimensional width of the process. Propagation was rarely observed in the cell soma, which exhibited near synchronous recruitment of BAX. Propagation velocity is not affected by mitochondrial volume in segments of processes, but is negatively affected by mitochondrial density. There was no evidence of a propagating wave of increased levels of intracellular calcium ions. Alternatively, we did observe a uniform increase in superoxide build-up in cellular mitochondria, which was released as a propagating wave simultaneously with the propagating recruitment of BAX to the mitochondrial outer membrane.
最近的活细胞成像技术的进步已经发现了晚期凋亡事件的细胞内传播现象,如细胞色素 c 释放和半胱天冬酶激活。凋亡传播的机制、普遍性和速度仍不清楚。此外,没有研究表明促凋亡蛋白 BAX 的传播。为了评估 BAX 在细胞内凋亡传播中的作用,我们使用高速活细胞成像来可视化四种永生化细胞系中线粒体中荧光标记的 BAX 的募集。我们表明,线粒体 BAX 募集的传播与细胞色素 c 和 SMAC/ Diablo 的释放平行发生,并且受到细胞形态的影响,因此具有突起的细胞更有可能表现出传播。传播事件的起始在突起的远端尖端最为普遍,而传播的速度受突起的 2 维宽度的影响。在细胞体中很少观察到传播,细胞体中 BAX 的募集几乎是同步的。传播速度不受突起部位线粒体体积的影响,但受线粒体密度的负影响。没有证据表明细胞内钙离子水平的传播波增加。相反,我们确实观察到细胞线粒体中超氧自由基的积累均匀增加,并且作为一个传播波与 BAX 向线粒体外膜的传播募集同时释放。