Pablo Steinberg scite author profile

More than 80 years ago Otto Warburg suggested that cancer might be caused by a decrease in mitochondrial energy metabolism paralleled by an increase in glycolytic flux. In later years, it was shown that cancer cells exhibit multiple alterations in mitochondrial content, structure, function, and activity. We have stably overexpressed the Friedreich ataxia-associated protein frataxin in several colon cancer cell lines. These cells have increased oxidative metabolism, as shown by concurrent increases in aconitase activity, mitochondrial membrane potential, cellular respiration, and ATP content. Consistent with Warburg's hypothesis, we found that frataxin-overexpressing cells also have decreased growth rates and increased population doubling times, show inhibited colony formation capacity in soft agar assays, and exhibit a reduced capacity for tumor formation when injected into nude mice. Furthermore, overexpression of frataxin leads to an increased phosphorylation of the tumor suppressor p38 mitogen-activated protein kinase, as well as decreased phosphorylation of extracellular signalregulated kinase. Taken together, these results support the view that an increase in oxidative metabolism induced by mitochondrial frataxin may inhibit cancer growth in mammals.Friedreich ataxia is an inherited neurodegenerative disorder (1) caused by the reduced expression of mitochondrial frataxin protein (2) leading to premature death due to cardiac failure (1), diabetes mellitus and insulin resistance (3), as well as impaired ATP synthesis in humans (4, 5). Concurrently it was shown that frataxin promotes oxidative metabolism and ATP synthesis when overexpressed in fibroblasts (6), possibly by a direct interaction with the respiratory chain (7). Although the primary function of frataxin is still a matter of debate (8), some evidence suggests that this protein directs the intramitochondrial synthesis of Fe/S clusters (9 -12). Individuals suffering from Friedreich ataxia have a reduced life expectancy of 38 years on average (1) and show increased oxidative stress (13-15). Overexpression of frataxin has been shown to reduce intracellular accumulation of reactive oxygen species (ROS) 3 and to prevent menadione-induced malignant transformation of fibroblasts (16). Furthermore, disruption of the frataxin homologue in yeast has been shown to cause increased sensitivity to oxidants and promote oxidative damage to both nuclear (17), as well as mitochondrial, DNA (18). In addition, fibroblasts from Friedreich ataxia patients exhibit increased sensitivity against ionizing radiation and show an increased frequency of transforming events (19). Although malignant disease is not considered a typical feature of the disorder, Friedreich ataxia patients exhibit various types of cancer atypical for their young age (reviewed in Refs. 3 and 16). Lastly, targeted disruption of frataxin in murine hepatocytes causes decreased life span and liver tumor formation in mice. 4 In parallel to these latter findings in rodents, we questioned whether frataxin migh...

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Cryopreserved Primary Hepatocytes as a Constantly Available in Vitro Model for the Evaluation of Human and Animal Drug Metabolism and Enzyme Induction*

Hengstler¹,

Utesch²,

Steinberg

et al. 2000

Drug Metabolism Reviews

249

129

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The use of primary hepatocytes is now well established for both studies of drug metabolism and enzyme induction. Cryopreservation of primary hepatocytes decreases the need for fresh liver tissue. This is especially important for research with human hepatocytes because availability of human liver tissue is limited. In this review, we summarize our research on optimization and validation of cryopreservation techniques. The critical elements for successful cryopreservation of hepatocytes are (1) the freezing protocol, (2) the concentration of the cryoprotectant [10% dimethyl-sulfoxide (DMSO)], (3) slow addition and removal of DMSO, (4) carbogen equilibration during isolation of hepatocytes and before cryopreservation, and (5) removal of unvital hepatocytes by Percoll centrifugation after thawing. Hepatocytes of human, monkey, dog, rat, and mouse isolated and cryopreserved by our standard procedure have a viability > or = 80%. Metabolic capacity of cryopreserved hepatocytes determined by testosterone hydroxylation, 7-ethoxyresorufin-O-de-ethylase (EROD), 7-ethoxycoumarin-O-deethylase (ECOD), glutathione S-transferase, UDP-glucuronosyl transferase, sulfotransferase, and epoxide hydrolase activities is > or = 60% of freshly isolated cells. Cryopreserved hepatocytes in suspension were successfully applied in short-term metabolism studies and as a metabolizing system in mutagenicity investigations. For instance, the complex pattern of benzo[a]pyrene metabolites including phase II metabolites formed by freshly isolated and cryopreserved hepatocytes was almost identical. For the study of enzyme induction, a longer time period and therefore cryopreserved hepatocyte cultures are required. We present a technique with cryopreserved hepatocytes that allows the induction of testosterone metabolism with similar induction factors as for fresh cultures. However, enzyme activities of induced hepatocytes and solvent controls were smaller in the cryopreserved cells. In conclusion, cryopreserved hepatocytes held in suspension can be recommended for short-term metabolism or toxicity studies. Systems with cryopreserved hepatocyte cultures that could be applied for studies of enzyme induction are already in a state allowing practical application, but may be further optimized.

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Nitrate and nitrite in the diet: How to assess their benefit and risk for human health

Habermeyer

Roth

Guth

et al. 2014

Molecular Nutrition Food Res

225

101

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Nitrate is a natural constituent of the human diet and an approved food additive. It can be partially converted to nitrogen monoxide, which induces vasodilation and thereby decreases blood pressure. This effect is associated with a reduced risk regarding cardiovascular disease, myocardial infarction, and stroke. Moreover, dietary nitrate has been associated with beneficial effects in patients with gastric ulcer, renal failure, or metabolic syndrome. Recent studies indicate that such beneficial health effects due to dietary nitrate may be achievable at intake levels resulting from the daily consumption of nitrate-rich vegetables. N-nitroso compounds are endogenously formed in humans. However, their relevance for human health has not been adequately explored up to now. Nitrate and nitrite are per se not carcinogenic, but under conditions that result in endogenous nitrosation, it cannot be excluded that ingested nitrate and nitrite may lead to an increased cancer risk and may probably be carcinogenic to humans. In this review, the known beneficial and detrimental health effects related to dietary nitrate/nitrite intake are described and the identified gaps in knowledge as well as the research needs required to perform a reliable benefit/risk assessment in terms of long-term human health consequences due to dietary nitrate/nitrite intake are presented.

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Targeted disruption of hepatic frataxin expression causes impaired mitochondrial function, decreased life span and tumor growth in mice

Thierbach¹,

Schulz²,

Isken³

et al. 2005

116

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We have disrupted expression of the mitochondrial Friedreich ataxia protein frataxin specifically in murine hepatocytes to generate mice with impaired mitochondrial function and decreased oxidative phosphorylation. These animals have a reduced life span and develop multiple hepatic tumors. Livers also show increased oxidative stress, impaired respiration and reduced ATP levels paralleled by reduced activity of iron-sulfur cluster (Fe/S) containing proteins (ISP), which all leads to increased hepatocyte turnover by promoting both apoptosis and proliferation. Accordingly, phosphorylation of the stress-inducible p38 MAP kinase was found to be specifically impaired following disruption of frataxin. Taken together, these findings indicate that frataxin may act as a mitochondrial tumor suppressor protein in mammals.

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Pablo Steinberg

Induction of Oxidative Metabolism by Mitochondrial Frataxin Inhibits Cancer Growth

Cryopreserved Primary Hepatocytes as a Constantly Available in Vitro Model for the Evaluation of Human and Animal Drug Metabolism and Enzyme Induction*

Nitrate and nitrite in the diet: How to assess their benefit and risk for human health

Targeted disruption of hepatic frataxin expression causes impaired mitochondrial function, decreased life span and tumor growth in mice

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