Abstract
The biochemical mechanisms of apoptosis-induction by all- trans-retinoic acid (a tRA) and N-(4-hydroxyphenyl)retinamide (4HPR) in cultured MCF7 cancer cells were studied by multiparameter flow cytometry. Retinoid treatment induced formation of two biochemically distinct cell subpopulations, which preceded the appearance of cells with fragmented nuclei. Exposure to a tRA led to a transient increase in NADH level and mitochondrial oxidative turnover and a slow decline in reduced thiol level and mitochondrial membrane potential, suggesting that a tRA treatment induces a transient defense mechanism. The synthetic retinoid 4HPR, in contrast, caused a gradual decrease in mitochondrial oxidative turnover and cardiolipin level together with a small decline in mitochondrial membrane potential, suggesting that 4HPR induces oxidation of cardiolipin and subsequent leakage of the mitochondria. Co-incubation with cyclosporin A, an inhibitor of the mitochondrial permeability transition, did not prevent formation of fragmented nuclei or induction of changes in mitochondrial parameters by retinoids. Thus, the mitochondrial permeability transition does not appear to be involved in retinoid induction of apoptosis in MCF7 cells. Retinoid exposure of diploid human mammary epithelial cells induced mild oxidative stress but did not lead to formation of two cell subpopulations. We conclude that a tRA and 4HPR induce apoptosis in MCF7 cells by two distinct and novel biochemical mechanisms.
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