The Apoptotic Effects of Oxidative Stress and Antiapoptotic Effects of Caspase Inhibitors on Rat Notochordal Cells
Western blotting and flow cytometric analyses were performed using rat notochordal cells.Objective.
To demonstrate the apoptotic effect of oxidative stress and the antiapoptotic effects of caspase inhibitors on rat notochordal cells.Summary of Background Data.
Although oxidative stress causes apoptosis in many cell types, its effect on the apoptosis of notochordal cell and antiapoptotic effects of caspase inhibitors on the oxidative stress-induced apoptosis are unknown.Methods.
Cultured rat notochordal cells were exposed to oxidative stress [500 μmol/L of hydrogen peroxide (H2O2)]. To determine the oxidative stress-induced apoptotic pathways, activations of caspases (-3, -8, and -9) as well as cleavages of Bid and poly (ADP-ribose) polymerase (PARP) were evaluated with Western blotting 6 hours after oxidative stress. To elucidate the antiapoptotic effects of caspase inhibitors on the oxidative stress induced-apoptosis, apoptotic rates of notochordal cells with or without treatment of specific caspase inhibitors (z-IETD-fmk for caspase-8, z-LEHD-fmk for caspase-9, and z-DEVD-fmk for caspase-3) were quantified by flow cytometry.Results.
Oxidative stress significantly increased apoptosis of rat notochordal cells (2.1% vs. 4.75%, P = 0.008) and led to activations of initiators of intrinsic (caspases-9) and extrinsic (caspase-8) pathways as well as their common executioner (caspase-3). It also caused cleavages of Bid and PARP. Flow cytometric analysis showed that inhibition of only one of the intrinsic and extrinsic pathways by caspase-9 inhibitor (4.75% vs. 3.56%, P = 0.31) and caspase-8 inhibitor (4.75% vs. 5.24%, P = 0.84) did not significantly suppress the oxidative stress-induced apoptosis. However, inhibition of both pathways by caspase-3 inhibitor significantly reduced the oxidative stress-induced apoptosis (4.75% vs. 2.64%, P = 0.008) to the control level (2.1% vs. 2.64%, P = 0.15).Conclusion.
Oxidative stress caused apoptosis of rat notochordal cells via both intrinsic and extrinsic (Type I and Type II) pathways. Because caspase inhibitors are being used in clinical trials, inhibition of both pathways using caspase inhibitors might be of future therapeutic importance in oxidative stress-induced apoptosis of notochordal cells. Our results suggest that inhibition of inappropriate or premature oxidative stress-induced apoptosis of notochordal cells may delay the starting point of disc degeneration.