AGAIN with the quantitative cell signaling! YES! because it is so versatile!! I am sure you will find that this will become a valuable technique to use in your research.
As you may already know, there are two major apoptosis signaling pathways: the death receptor (extrinsic) pathway and the mitochondrial (intrinsic) pathway. Under most circumstances, activation of either pathway leads to proteolytic cleavage and activation of caspases, a family of cysteine proteases that act as common death effector molecules. The In-Cell Western Assay is a very helpful research tool for scientists who are quantifying cell signaling.
Figure 1. Time course of caspase-3 activation in S2 cells. (A-C) In-Cell Western analysis of S2 cells treated with Actinomycin D (Act D) to induce apoptosis. Each time point was measured in triplicate and stained for anti-active-caspase-3 (A; green) and f-actin (B; red, stained with near-infrared fluorescent phalloidin). Panel C shows merged pseudocolor images. (D) Active-caspase-3 protein levels from (A) were quantified and normalized to f-actin levels in (B) for each time point. The active caspase-3:f-actin ratio at 0min Actinomycin D exposure was designated as 1, and all other ratios are shown relative to this value. Error bars represent the standard error of each independent measurement. Exposure of S2 cells to Actinomycin D increased the relative levels of active caspase-3 over time. Reprinted with permission from Bond, D.et al. Biol Proced Online. 10(1):20-28(2008).
Here is our complete apoptosis assay example protocol of the HeLa cellular response to anisomycin treatment (detailing the seeding, induction, and detection).