Fig. 8.
Fig. 8. Proposed scheme for CdA-induced apoptosis in CEM cells. / Resistance to CdA is characterized by a lack of cytochrome c release, which is preceded by an abrogation of cytosolic Ca2+elevations and subsequent induction of MPT. CdA treatment causes a decrease in mitochondrial Ca2+ buffering capacity in sensitive CEM 0 cells but not in any of the resistant cell lines. Consequently, there is no caspase-3–like or caspase-9–like activity in CdA-resistant cells. The cell-permeable Ca2+ chelator, BAPTA-AM (50 μM), blocks CdA-induced caspase activation and DNA fragmentation in parental cells, suggesting that mitochondria may be a target for Ca2+-dependent apoptotic events initiated by CdA.

Proposed scheme for CdA-induced apoptosis in CEM cells.

Resistance to CdA is characterized by a lack of cytochrome c release, which is preceded by an abrogation of cytosolic Ca2+elevations and subsequent induction of MPT. CdA treatment causes a decrease in mitochondrial Ca2+ buffering capacity in sensitive CEM 0 cells but not in any of the resistant cell lines. Consequently, there is no caspase-3–like or caspase-9–like activity in CdA-resistant cells. The cell-permeable Ca2+ chelator, BAPTA-AM (50 μM), blocks CdA-induced caspase activation and DNA fragmentation in parental cells, suggesting that mitochondria may be a target for Ca2+-dependent apoptotic events initiated by CdA.

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