Reactive oxygen and nitrogen species in normal physiological processes

Pourová, Jana; Kottova, M.; Vopršalová, Marie; Pour, Milan

doi:10.1111/j.1748-1716.2009.02039.x

Cited by 125 publications

(79 citation statements)

References 200 publications

(338 reference statements)

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“…The autophagy-mediated stress response mechanism may be particularly important in cancer cells to limit cell death and tissue inflammation, to recycle toxic damaged proteins and organelles, and to provide energy and metabolic substrates. Autophagy also triggers clearance of damaged mitochondria (mitophagy), which are potential sources of ROS involved in activation of cell death via ROS-induced necrosis (Pourova et al 2010). Understanding the mechanism for autophagy addiction will assist in our efforts to therapeutically target this important survival mechanism exploited by cancer cells.…”

Section: Oncogene Activation Causes Dependence On Autophagy For Tumormentioning

confidence: 99%

Autophagy, Stress, and Cancer Metabolism: What Doesn't Kill You Makes You Stronger

Mathew¹,

White²

2011

Cold Spring Harbor Symposia on Quantitative Biology

108

112

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Altered metabolism is a hallmark of cancer. Oncogenic events that lead to cancerous states reorganize metabolic pathways to increase nutrient uptake, which promotes biosynthetic capabilities and cell-autonomous behavior. Increased biosynthesis dictates metabolic demand for ATP, building blocks, and reducing equivalents, rendering cancer cells metabolically in a perpetually hungry state. Moreover, most chemotherapy agents induce acute metabolic stress that cancer cells must overcome for their survival. These metabolic stress cues in cancer cells can activate and cause dependence on the self-cannibalization mechanism of macroautophagy (autophagy hereafter) for the lysosomal turnover and recycling of organelles and proteins for energy and stress survival. For example, activating mutations in Ras or Ras-effector pathways induce autophagy, and cancer cell lines with Ras activation show elevated levels of basal autophagy that is essential for starvation survival and tumor growth. The metabolic implications of this are profound and multifaceted. First, autophagy-mediated degradation and recycling of cellular substrates can support metabolism and promote survival and tumor growth. Second, acute autophagy activation in response to cancer therapy can potentially lead to refractory tumors resistant to conventional chemotherapy. For example, a specific form of autophagy that targets mitochondria (mitophagy) may also function to promote cell survival by the clearance of damaged mitochondria that are potential sources of reactive oxygen species (ROS). These point to the possibility that autophagy is a unique metabolic need, important for survival as well as therapy resistance in cancer cells. Targeting autophagy in single-agent therapy to sensitize aggressive cancers that are dependent on autophagy for survival or in combination with therapeutic agents that induce autophagy as a resistance mechanism may be an effective therapeutic strategy to treat cancer.

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Section: Oncogene Activation Causes Dependence On Autophagy For Tumormentioning

confidence: 99%

Autophagy, Stress, and Cancer Metabolism: What Doesn't Kill You Makes You Stronger

Mathew¹,

White²

2011

Cold Spring Harbor Symposia on Quantitative Biology

108

112

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“…FRs have been involved in biological processes such as lipid peroxidation, the intracellular killing of bacteria by phagocytic cells and the alteration of the electron transport system in mitochondria (Pourova et al, 2010). The human body is continuously producing FRs and an excess of FRs can produce oxidative damage.…”

Section: Introductionmentioning

confidence: 99%

Summer Day/Night Gender Differences in Serum Total Antioxidant Capacity as a Methodological Pitfall in Human Antioxidant Research

Fumero¹,

Abreu-González²,

Lopez³

et al. 2016

JCB

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Background: A dysregulation of the oxidant-antioxidant system has been described in several medical conditions. The total antioxidant capacity (TAC) is one measure of the antioxidant capacity of a system. Circadianity is a biological characteristic of hormones such as melatonin or cortisol. There is little information about TAC circadian rhythm in healthy subjects. Objective: Assessing if healthy subjects present day/night serum TAC changes. Methods: Blood of48 men and 49 women were drawn at 12:00 and 00:00 hours in summer. Serum TAC was measured by the ABTS radical cation technique. TAC results are expressed as mmol of trolox/L (mean ± SD). Results: Men had higher serum TAC concentrations at midday than midnight (0.88±0.18 vs. 0.75±0.19, p<0.001). Women did not have a day/night difference in TAC concentrations

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“…Macrophages produce a variety of toxic substances to kill engulfed microorganisms (figure 3). This includes antimicrobial peptides, nitric oxide (NO), the superoxide anion (O 2 -) and hydrogen peroxide (H 2 O 2 ) (Pourova et al, 2010;Robinson, 2009). Nitric oxide is generated by the inducible nitric oxide synthase (iNOS) (Pourova et al, 2010;Robinson, 2009).…”

mentioning

confidence: 99%

“…This includes antimicrobial peptides, nitric oxide (NO), the superoxide anion (O 2 -) and hydrogen peroxide (H 2 O 2 ) (Pourova et al, 2010;Robinson, 2009). Nitric oxide is generated by the inducible nitric oxide synthase (iNOS) (Pourova et al, 2010;Robinson, 2009). Superoxide is synthesized by a multicomponent, membrane-associated NADPH oxidase in a process known as the respiratory burst, and further converted by the enzyme superoxide dismutase into H 2 O 2 (Pourova et al, 2010;Robinson, 2009).…”

mentioning

confidence: 99%

“…Nitric oxide is generated by the inducible nitric oxide synthase (iNOS) (Pourova et al, 2010;Robinson, 2009). Superoxide is synthesized by a multicomponent, membrane-associated NADPH oxidase in a process known as the respiratory burst, and further converted by the enzyme superoxide dismutase into H 2 O 2 (Pourova et al, 2010;Robinson, 2009). Based on H 2 O 2 a range of toxic chemicals, including the hydroxyl radical ( · OH), hypochlorite (OCl -) and hypobromide (OBr -) are produced by chemical and enzymatic reactions (Pourova et al, 2010;Robinson, 2009).…”

mentioning

confidence: 99%

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The Impact of Macrophage Membrane Lipid Composition on Innate Immune Response Mechanisms

Schümann¹

2012

Inflammation, Chronic Diseases and Cancer - Cell and Molecular Biology, Immunology and Clinical Bases

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Reactive oxygen and nitrogen species in normal physiological processes

Cited by 125 publications

References 200 publications

Autophagy, Stress, and Cancer Metabolism: What Doesn't Kill You Makes You Stronger

Autophagy, Stress, and Cancer Metabolism: What Doesn't Kill You Makes You Stronger

Summer Day/Night Gender Differences in Serum Total Antioxidant Capacity as a Methodological Pitfall in Human Antioxidant Research

The Impact of Macrophage Membrane Lipid Composition on Innate Immune Response Mechanisms

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