Figure 3.
Figure 3. Bortezomib activates the intrinsic pathway in MCL cells. Effect of caspase inhibition and ROS elimination on bortezomib-induced apoptosis in MCL. Jeko and Granta-519 cells were treated with 20 nM bortezomib for 18 hours in the absence or presence of z-VAD-fmk (50 μM) or glutathione-reduced ethyl ester (GSH, 2 mM). These inhibitors were preincubated for 1 hour before bortezomib addition. Cell viability was determined by annexin V/PI staining. ΔΨm was assessed by DiOC6(3) staining, and ROS generation was quantified using DHE. Bax/Bak conformational changes and caspase-3 activation were determined by staining permeabilized cells with anti-Bax, anti-Bak, and anti-active caspase-3 antibodies. In treated cells, the histogram (black) is superimposed with the control (gray). The percentage of positive cells for each labeling is indicated inside the chart.

Bortezomib activates the intrinsic pathway in MCL cells. Effect of caspase inhibition and ROS elimination on bortezomib-induced apoptosis in MCL. Jeko and Granta-519 cells were treated with 20 nM bortezomib for 18 hours in the absence or presence of z-VAD-fmk (50 μM) or glutathione-reduced ethyl ester (GSH, 2 mM). These inhibitors were preincubated for 1 hour before bortezomib addition. Cell viability was determined by annexin V/PI staining. ΔΨm was assessed by DiOC6(3) staining, and ROS generation was quantified using DHE. Bax/Bak conformational changes and caspase-3 activation were determined by staining permeabilized cells with anti-Bax, anti-Bak, and anti-active caspase-3 antibodies. In treated cells, the histogram (black) is superimposed with the control (gray). The percentage of positive cells for each labeling is indicated inside the chart.

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