Staurosporine induced apoptosis in a human oligodendroglioma cell line (HOG), neonatal rat oligodendrocyte (O2A(+)) precursors, and mature rat oligodendrocytes. In all three cell culture systems, the activation of caspase-3-like activity (CPP32) coincided with the increased formation of ceramide from sphingomyelin and the onset of DNA fragmentation. Further, the addition of exogenous C(2)-ceramide induced CPP32 activation and DNA fragmentation in all three culture systems. Raising endogenous ceramide levels by the addition of the ceramidase inhibitor, oleoylethanolamine, enhanced apoptosis in both a time- and concentration-dependent manner. Inhibitors of phosphatidylinositol 3-kinase (wortmannin and LY294002) also induced caspase-3 (CPP32) activation, increased ceramide formation, induced DNA fragmentation, and reduced cell viability. In contrast, cytokines such as tumor necrosis factor-alpha (TNF-alpha) had a differential effect on the three cell cultures. Thus, TNF-alpha (160 ng/ml) induced 70% apoptosis in 24 hr in freshly isolated rat brain O2A(+) precursor cells, 60% apoptosis in 24 hr in a human oligodendroglioma (HOG) cell line, but no apoptosis in mature neonatal rat oligodendrocytes. Interferon-gamma augmented the activation of CPP32 by TNF-alpha in HOG cells and O2A(+) oligodendrocyte precursor cells but had no effect on mature oligodendrocytes. Thus, the death pathway appears to be similar in the three cell lines but the lack of coupling between TNF-alpha receptors and the apoptotic pathway leads to a lack of response to cytokines in mature oligodendrocytes.
Staurosporine induced apoptosis in a human oligodendroglioma cell line (HOG), neonatal rat oligodendrocyte (O2A(+)) precursors, and mature rat oligodendrocytes. In all three cell culture systems, the activation of caspase-3-like activity (CPP32) coincided with the increased formation of ceramide from sphingomyelin and the onset of DNA fragmentation. Further, the addition of exogenous C(2)-ceramide induced CPP32 activation and DNA fragmentation in all three culture systems. Raising endogenous ceramide levels by the addition of the ceramidase inhibitor, oleoylethanolamine, enhanced apoptosis in both a time- and concentration-dependent manner. Inhibitors of phosphatidylinositol 3-kinase (wortmannin and LY294002) also induced caspase-3 (CPP32) activation, increased ceramide formation, induced DNA fragmentation, and reduced cell viability. In contrast, cytokines such as tumor necrosis factor-alpha (TNF-alpha) had a differential effect on the three cell cultures. Thus, TNF-alpha (160 ng/ml) induced 70% apoptosis in 24 hr in freshly isolated rat brain O2A(+) precursor cells, 60% apoptosis in 24 hr in a human oligodendroglioma (HOG) cell line, but no apoptosis in mature neonatal rat oligodendrocytes. Interferon-gamma augmented the activation of CPP32 by TNF-alpha in HOG cells and O2A(+) oligodendrocyte precursor cells but had no effect on mature oligodendrocytes. Thus, the death pathway appears to be similar in the three cell lines but the lack of coupling between TNF-alpha receptors and the apoptotic pathway leads to a lack of response to cytokines in mature oligodendrocytes.
TNF-alpha activated caspase 8 and caspase 3 in PC12 cells, leading to cell death by apoptosis (DNA fragmentation). TNF-alpha caspase activation and cell killing were blocked by transfection and overexpression of the viral protein CrmA, which specifically inhibits caspase 8. CrmA was also able to block the TNF-alpha-induced increase in ceramide formation in PC12 cells. Conversely, if caspase 8 was activated by light-activated Rose Bengal, there was an increase in both ceramide and caspase 3-mediated apoptosis, which was blocked by CrmA overexpression. This suggested that caspase 8 increases ceramide either by increasing its synthesis or by activating sphingomyelinase. Since fumonisin B1 did not block and sphingomyelin decreased when ceramide increased, we concluded that activation of sphingomyelinase is the most likely mechanism. The Rose Bengal activation of caspase 8 and increased ceramide formation was blocked with IETD-CHO, to show that reactive oxygen species (also generated by Rose Bengal) were not responsible for the observed increase in ceramide. Thus in PC12 pheochromocytoma cells, ceramide appears to amplify the death signal and there appears to be a sequence of events: TNF; TRADD, pro-caspase 8, caspase 8, sphingomyelinase, ceramide, caspase 3, apoptosis.
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