Nuria Ponce Márquez scite author profile

Key Points• More than 60% of primary AML blasts constitutively produce high levels of NOXderived reactive oxygen species (ROS), which drives AML proliferation.• High ROS AMLs show depleted antioxidant defenses but evade the oxidative stress response through suppression of p38 MAPK signaling.Excessive production of reactive oxygen species (ROS) is frequently observed in cancer and is known to strongly influence hematopoietic cell function. Here we report that extracellular ROS production is strongly elevated (mean >10-fold) in >60% of acute myeloid leukemia (AML) patients and that this increase is attributable to constitutive activation of nicotinamide adenine dinucleotide phosphate oxidases (NOX). In contrast, overproduction of mitochondrial ROS was rarely observed. Elevated ROS was found to be associated with lowered glutathione levels and depletion of antioxidant defense proteins. We also show for the first time that the levels of ROS generated were able to strongly promote the proliferation of AML cell lines, primary AML blasts, and, to a lesser extent, normal CD34 1 cells, and that the response to ROS is limited by the activation of the oxidative stress pathway mediated though p38 MAPK. Consistent with this, we observed that p38 MAPK responses were attenuated in patients expressing high levels of ROS. These data show that overproduction of NOX-derived ROS can promote the proliferation of AML blasts and that they also develop mechanisms to suppress the stress signaling that would normally limit this response. Together these adaptations would be predicted to confer a competitive advantage to the leukemic clone. (Blood. 2013;122(19):3322-3330)

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Cadmium Effects on Hypothalamic-Pituitary-Testicular Axis in Male Rats

Lafuente

Márquez

Pérez‐Lorenzo

et al. 2001

Exp Biol Med (Maywood)

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This study analyzes cadmium effects at the hypothalamic-pituitary-testicular axis. Male rats were given cadmium during puberty or adulthood. Cadmium exposure through puberty increased norepinephrine content in all hypothalamic areas studied, but not in the median eminence. Metal exposure increased serotonin turnover in median eminence and the anterior hypothalamus, while decreased it in mediobasal hypothalamus. Also, decreased plasma levels of testosterone were found. Cadmium exposure during adulthood increased norepinephrine content in posterior hypothalamus and decreased the neurotransmitter content in anterior and mediobasal hypothalamus. Decreased circulating levels of luteinizing hormone (LH) and testosterone and increased plasma follicle stimulating hormone (FSH) levels were also observed. Cadmium accumulated in all analyzed tissues. Various parameters showed age-dependent changes. These data suggest that cadmium globally effects hypothalamic-pituitary-testicular axis function by acting at the three levels analyzed and that an interaction between cadmium exposure and age emerge.

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Pubertal and postpubertal cadmium exposure differentially affects the hypothalamic–pituitary–testicular axis function in the rat

Lafuente

Márquez

Pérez‐Lorenzo

et al. 2000

Food and Chemical Toxicology

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Tracking the cell cycle origins for escape from topotecan action by breast cancer cells

et al. 2003

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The anticancer agent topotecan is considered to be S-phase specific. This implies that cancer cells that are not actively replicating DNA could resist the effects of the drug. The cycle specificity of topotecan action was investigated in MCF-7 cells, using time-lapse microscopy to link the initial cell cycle position during acute exposures to topotecan with the antiproliferative consequences for individual cells. The bioactive dose range (0.5 -10 mM) for 1-h topotecan exposures was defined by rapid drug delivery and topoisomerase I trapping. Topotecan caused pan-cycle induction and activation of p53. Lineage analysis of the time-lapse sequences identified cells initially in S-phase and G2, and defined the time to mitosis for cells originating from G2, S-phase and G1. Topotecan prevented all mitoses from S-phase cells and G1 cells (half-maximal effects at 0.14 mM and 0.96 mM, respectively). No dose of topotecan completely prevented mitosis among G2 cells, and at saturating doses of topotecan about half the cells of G2 origin continued dividing (the half-maximal effects was at 0.31 mM). Overall, topotecan differentially targeted G1-, S-and G2-phase cells, but many G2 cells were resistant to topotecan, presenting a clear route for cell cycle-mediated drug resistance.

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Single cell tracking reveals that Msh2 is a key component of an early-acting DNA damage-activated G2 checkpoint

et al. 2003

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Dysfunction of cell-cycle checkpoints in DNA mismatch repair (MMR)-deficient cells in response to DNA damage has implications for anticancer therapy and genetic instability. We have studied the cell-cycle effects of MMR deficiency (Msh2) in primary mouse embryonic fibroblasts (MEFs) exposed to cisplatin (10 lm Â 1 h) using time-lapse microscopy. Kinetic responses of MEFs from different embryos and passage ages varied, but we report a consistent drug-induced inhibition of mitotic entry (approx. 50%). There was a loss of an early-acting (o5 h) delay in G2 to M transition in Msh2 À/À cells, although a later-acting G2 arrest was apparently normal. This suggests that Msh2 primarily acts to delay mitotic entry of cells already in G2, that is, DNA damage incurred during G2 does not influence the cell once committed to mitotic traverse. Irrespective of Msh2 status, cisplatin treatment and the incurred DNA damage did not effect mitotic traverse or show any evidence for early (within 24 h) cell death. The results indicate that Msh2 À/À status can result in the premature commitment to mitosis of a cell subpopulation, determined by the fraction residing in G2 at the time of damage induction. The findings suggest a new route to MMR-driven genetic instability that does not rely primarily on the integrity of the late-acting checkpoint.

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