M Poot1, R H Pierce. 1. Department of Pathology, University of Washington, Seattle 98195-7705, USA. mpoot@u.washington.edu
Abstract
BACKGROUND: The possible relationships between changes in mitochondrial membrane potential and other mitochondrial functions during apoptosis remain controversial. METHODS: To detect concomitant changes in mitochondrial function during apoptosis, we performed correlated multiparameter flow cytometry after simultaneous cell staining with several dyes. RESULTS: After camptothecin treatment, nonapoptotic cells exhibited a concomitant rise in mitochondrial membrane potential [8-(4'-chloromethyl) phenyl-2, 3, 5, 6, 11, 12, 14, 15-octahydro-1H, 4H, 10H, 13H-diquinolizino-8H-xanthylium chloride, or CMXRos; CMXRos fluorescence divided by MitoTracker Green fluorescence], NADH level (ultraviolet-excited blue autofluorescence), and oxidative turnover (H2-CMXRos oxidation). Frankly apoptotic cells showed a decreased mitochondrial membrane potential, NADH level, and oxidative turnover. Oxidative turnover was not sensitive to antimycin A treatment, which suggests that H2-CMXRos oxidation in these cells may be due to lipid peroxidation. In addition, frankly apoptotic cells showed lower cardiolipin levels (by nonyl-acridine orange staining). The efficiency of energy transfer between nonyl-acridine orange and CMXRos was slightly lower in camptothecin-treated nonapoptotic cells and reduced to zero in frankly apoptotic cells. CONCLUSIONS: We conclude that, in an initial phase of camptothecin-induced apoptosis, mitochondrial activity is increased and a subtle loss of structural integrity of the mitochondrial membranes takes place. In frankly apoptotic cells, all measured parameters of mitochondrial collapse and lipid peroxidation occurs.
BACKGROUND: The possible relationships between changes in mitochondrial membrane potential and other mitochondrial functions during apoptosis remain controversial. METHODS: To detect concomitant changes in mitochondrial function during apoptosis, we performed correlated multiparameter flow cytometry after simultaneous cell staining with several dyes. RESULTS: After camptothecin treatment, nonapoptotic cells exhibited a concomitant rise in mitochondrial membrane potential [8-(4'-chloromethyl) phenyl-2, 3, 5, 6, 11, 12, 14, 15-octahydro-1H, 4H, 10H, 13H-diquinolizino-8H-xanthylium chloride, or CMXRos; CMXRos fluorescence divided by MitoTracker Green fluorescence], NADH level (ultraviolet-excited blue autofluorescence), and oxidative turnover (H2-CMXRos oxidation). Frankly apoptotic cells showed a decreased mitochondrial membrane potential, NADH level, and oxidative turnover. Oxidative turnover was not sensitive to antimycin A treatment, which suggests that H2-CMXRos oxidation in these cells may be due to lipid peroxidation. In addition, frankly apoptotic cells showed lower cardiolipin levels (by nonyl-acridine orange staining). The efficiency of energy transfer between nonyl-acridine orange and CMXRos was slightly lower in camptothecin-treated nonapoptotic cells and reduced to zero in frankly apoptotic cells. CONCLUSIONS: We conclude that, in an initial phase of camptothecin-induced apoptosis, mitochondrial activity is increased and a subtle loss of structural integrity of the mitochondrial membranes takes place. In frankly apoptotic cells, all measured parameters of mitochondrial collapse and lipid peroxidation occurs.
Authors: Natasha S Barteneva; Eugeny D Ponomarev; Alla Tsytsykova; Myriam Armant; Ivan A Vorobjev Journal: J Histochem Cytochem Date: 2014-01-06 Impact factor: 2.479
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