BACKGROUND: Cells from patients with t(15;17) acute promyelocytic leukemia (APL) express the fusion protein between the promyelocytic leukemia protein and retinoic acid receptor alpha (PML/RAR alpha). Patients with APL respond to differentiation therapy with all-trans-retinoic acid, which induces PML/RAR alpha degradation. When resistance to all-trans-retinoic acid develops, an effective treatment is arsenic trioxide (arsenite), which also induces this degradation. We investigated the mechanism of arsenite-induced PML/RAR alpha degradation. METHODS: NB4-S1 APL cells were treated with clinically relevant concentrations of arsenite. Lysosomes were visualized with a lysosome-specific dye. Lysosomal protein esterase was measured by immunoblot analysis. Lysosomal cathepsin L was detected by immunogold labeling and transmission electron microscopy, and its activity was measured in cytosolic cellular fractions. In vitro degradation assays of PML/RAR alpha in cell lysates were performed with and without protease inhibitors and assessed by immunoblot analysis. Only nonparametric two-sided statistical analyses were used. The nonparametric Wilcoxon test was used for group comparison, and the nonlinear regression technique was used for analysis of dose-response relationship as a function of arsenite concentration. RESULTS: Arsenite treatment destabilized lysosomes in APL cells. Lysosomal proteases, including cathepsin L, were released from lysosomes 5 minutes to 6 hours after arsenite treatment. PML/RAR alpha was degraded by lysate from arsenite-treated APL cells, and the degradation was inhibited by protease inhibitors. At both 6 and 24 hours, substantially fewer arsenite-treated APL cells, than untreated cells, contained cathepsin L clusters, a reflection of cathepsin L delocalization. Cells with cathepsin L clusters decreased as a function of arsenite concentration at rates of -2.03% (95% confidence interval [CI] = -4.01 to -.045; P = .045) and -2.39% (95% CI = -4.54 to -.024; P = .029) in 6- and 24-hour treatment groups, respectively, per 1.0 microM increase in arsenite concentration. Statistically significantly higher cytosolic cathepsin L activity was detected in lysates of arsenite-treated APL cells than in control lysates. For example, the mean increase in cathepsin activity at 6 hours and 1.0 microM arsenite was 26.3% (95% CI = 3.3% to 33%; P < .001), compared with untreated cells. CONCLUSIONS: In APL cells, arsenite may cause rapid destabilization of lysosomes.
BACKGROUND: Cells from patients with t(15;17) acute promyelocytic leukemia (APL) express the fusion protein between the promyelocytic leukemia protein and retinoic acid receptor alpha (PML/RAR alpha). Patients with APL respond to differentiation therapy with all-trans-retinoic acid, which induces PML/RAR alpha degradation. When resistance to all-trans-retinoic acid develops, an effective treatment is arsenic trioxide (arsenite), which also induces this degradation. We investigated the mechanism of arsenite-induced PML/RAR alpha degradation. METHODS: NB4-S1 APL cells were treated with clinically relevant concentrations of arsenite. Lysosomes were visualized with a lysosome-specific dye. Lysosomal protein esterase was measured by immunoblot analysis. Lysosomal cathepsin L was detected by immunogold labeling and transmission electron microscopy, and its activity was measured in cytosolic cellular fractions. In vitro degradation assays of PML/RAR alpha in cell lysates were performed with and without protease inhibitors and assessed by immunoblot analysis. Only nonparametric two-sided statistical analyses were used. The nonparametric Wilcoxon test was used for group comparison, and the nonlinear regression technique was used for analysis of dose-response relationship as a function of arsenite concentration. RESULTS:Arsenite treatment destabilized lysosomes in APL cells. Lysosomal proteases, including cathepsin L, were released from lysosomes 5 minutes to 6 hours after arsenite treatment. PML/RAR alpha was degraded by lysate from arsenite-treated APL cells, and the degradation was inhibited by protease inhibitors. At both 6 and 24 hours, substantially fewer arsenite-treated APL cells, than untreated cells, contained cathepsin L clusters, a reflection of cathepsin L delocalization. Cells with cathepsin L clusters decreased as a function of arsenite concentration at rates of -2.03% (95% confidence interval [CI] = -4.01 to -.045; P = .045) and -2.39% (95% CI = -4.54 to -.024; P = .029) in 6- and 24-hour treatment groups, respectively, per 1.0 microM increase in arsenite concentration. Statistically significantly higher cytosolic cathepsin L activity was detected in lysates of arsenite-treated APL cells than in control lysates. For example, the mean increase in cathepsin activity at 6 hours and 1.0 microM arsenite was 26.3% (95% CI = 3.3% to 33%; P < .001), compared with untreated cells. CONCLUSIONS: In APL cells, arsenite may cause rapid destabilization of lysosomes.
Authors: Dennis Liang Fei; Hua Li; Courtney D Kozul; Kendall E Black; Samer Singh; Julie A Gosse; James DiRenzo; Kathleen A Martin; Baolin Wang; Joshua W Hamilton; Margaret R Karagas; David J Robbins Journal: Cancer Res Date: 2010-02-23 Impact factor: 12.701
Authors: Yongli Guo; Andrey V Dolinko; Fadzai Chinyengetere; Bruce Stanton; Jennifer M Bomberger; Eugene Demidenko; Da-Cheng Zhou; Robert Gallagher; Tian Ma; Fabrizio Galimberti; Xi Liu; David Sekula; Sarah Freemantle; Ethan Dmitrovsky Journal: Cancer Res Date: 2010-10-08 Impact factor: 12.701
Authors: Ryan C Kwong; Margaret R Karagas; Karl T Kelsey; Rebecca A Mason; Sam A Tanyos; Alan R Schned; Carmen J Marsit; Angeline S Andrew Journal: World J Urol Date: 2009-10-16 Impact factor: 4.226
Authors: Jinesh S Gheeya; Qing-Rong Chen; Christopher D Benjamin; Adam T Cheuk; Patricia Tsang; Joon-Yong Chung; Belhu B Metaferia; Thomas C Badgett; Peter Johansson; Jun S Wei; Stephen M Hewitt; Javed Khan Journal: Cancer Biol Ther Date: 2009-12-27 Impact factor: 4.742
Authors: Anne K Bozack; Philippe Boileau; Linqing Wei; Alan E Hubbard; Fenna C M Sillé; Catterina Ferreccio; Johanna Acevedo; Lifang Hou; Vesna Ilievski; Craig M Steinmaus; Martyn T Smith; Ana Navas-Acien; Mary V Gamble; Andres Cardenas Journal: Environ Health Date: 2021-07-09 Impact factor: 5.984