Orsolya Mezei - Academia.edu (original) (raw)

Papers by Orsolya Mezei

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavonecontaining soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathionesulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-relate...

The Journal of Nutrition, 2007

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavonecontaining soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathionesulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-related induction of 12-a-hydroxylase (CYP8B1) was further studied in other in vitro and murine in vivo models. Transfection studies suggest that isoflavones may act as a weak activating ligand for hepatocyte nuclear factor 4a, which in turn may activate the transcription of CYP8B1. The action of soy isoflavones on CYP8B1 may increase the conversion of cholesterol into bile acids and enhance synthesis of cholic acid. These isoflavoneinduced changes in gene expression may help explain how isoflavones modulate cholesterol metabolism.

The Journal of Nutrition, 2003

The hypocholesterolemic and anti-atherosclerotic mechanism by which soy may exert a beneficial ef... more The hypocholesterolemic and anti-atherosclerotic mechanism by which soy may exert a beneficial effect remains unclear. Peroxisome-proliferator activated receptors (PPAR) are promiscuous nuclear receptors that regulate the transcription of genes involved in lipid and glucose homeostasis and lipid metabolism within the cell. We hypothesize that the isoflavones improve lipid and glucose metabolism by acting as an antidiabetic PPAR agonist. Male and female obese Zucker rats (OZR) were used as a model of Type 2 diabetes, and OZR fed a high isoflavone soy protein diet displayed improvements in lipid metabolism consistent with results in humans treated with antidiabetic PPAR agonists such as the fibrates or glitazones. Liver triglyceride and cholesterol concentrations were lower in all OZR fed high-isoflavone soy protein diets than in rats fed low-isoflavone and casein diets (P Ͻ 0.05). Concurrently, PPAR-directed gene expression was evaluated in a cell culture model. An isoflavonecontaining soy extract doubled PPAR-directed gene expression (P Ͻ 0.05) in RAW 264.7 cells containing either a PPAR␣ or PPAR␥ expression plasmid. A similar induction was observed when the soy isoflavones genistein or daidzein were used to treat cells. Both isoflavones doubled PPAR␣-directed gene expression (P Ͻ 0.05), whereas they increased PPAR␥-directed gene expression 200-400% (P Ͻ 0.05). This study suggests that soy isoflavones improve lipid metabolism, produce an antidiabetic effect, and activate PPAR receptors.

The Journal of Nutrition, 2007

The Journal of nutrition, 2002

Soy intake reduces cholesterol levels, but neither the exact component in soy causing this reduct... more Soy intake reduces cholesterol levels, but neither the exact component in soy causing this reduction nor the mechanism by which cholesterol is reduced is known with certainty. In this study, a genetic screen was performed to identify hepatic mRNA in gerbils regulated by soy or soy isoflavones. Gerbils were fed casein, an alcohol-washed soy-based diet (containing low levels of isoflavones), and the soy-based diet supplemented with an isoflavone-containing soy extract. After feeding for 28 d, gerbils were killed, hepatic RNA was isolated, and genes that were differentially expressed in any of the three dietary conditions were identified. Fifteen different mRNA were originally selected, including two mRNA that were studied further and shown to be highly regulated. Messenger RNA levels for both cytochrome P450-2A and phosphoribosylpyrophosphate synthetase-associated protein were up-regulated in a dose-dependent manner when soy replaced casein in the diet at 0, 33, 67 and 100% of origina...

Physiological Genomics, 2006

Intake of soy protein has been associated with improvements in lipid metabolism, with much attent... more Intake of soy protein has been associated with improvements in lipid metabolism, with much attention being focused on the serum cholesterol-lowering property of soy. The component or components of soy that are responsible for improvements in lipid metabolism have been investigated and their specific actions debated. One component, the isoflavones, has been shown to have weak estrogenic activity, and recently, several research groups have suggested that isoflavones are activating peroxisome proliferator-activated receptors (PPARs). The three different isoforms of PPARs (α, γ, and δ) have overlapping tissue distributions and functions associated with lipid metabolism. The goal of the present study was to investigate the hypothesis that the effect of isoflavones is mediated through the PPARα receptor. Male and female 129/Sv mice were obtained, including both wild-type and genetically altered PPARα knockout mice. Groups of mice were fed high-fat atherogenic diets containing soy protein ...

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavone- containing soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathione- sulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-re...

The Journal of Nutritional Biochemistry, 2005

Consumption of soy has been demonstrated to reduce circulating cholesterol levels, most notably r... more Consumption of soy has been demonstrated to reduce circulating cholesterol levels, most notably reducing low-density lipoprotein (LDL) cholesterol levels in hypercholesterolemic individuals. The component or components that might be responsible for this effect is still a matter of debate or controversy among many researchers. Candidate agents include an activity of soy protein itself, bioactive peptides produced during the digestive process, or the soy isoflavones. Although soy intake may provide other health benefits including preventative or remediative effects on cancer, osteoporosis and symptoms of menopause, this review will focus on isoflavones as agents affecting lipid metabolism. Isoflavones were first discovered as a bioactive agent disrupting estrogen action in female sheep, thereby earning the often-used term dphytoestrogensT. Subsequent work confirmed the ability of isoflavones to bind to estrogen receptors. Along with the cholesterollowering effect of soy intake, research that is more recent has pointed to a beneficial antidiabetic effect of soy intake, perhaps mediated by soy isoflavones. The two common categories of antidiabetic drugs acting on nuclear receptors known as peroxisome proliferator activated receptors (PPARs) are the fibrates and glitazones. We and others have recently asked the research question ddo the soy isoflavones have activities as either bphytofibratesQ or bphytoglitazonesQ?T Such an activity should be able to be confirmed both in vivo and in vitro. In both the in vivo and in vitro cases, this action has indeed been confirmed. Further work suggests a possible action of isoflavones similar to the nonestrogenic ligands that bind the estrogen-related receptors (ERRs). Recently, these receptors have been demonstrated to contribute to lipolytic processes. Finally, evaluation of receptor activation studies suggests that thyroid receptor activation may provide additional clues explaining the metabolic action of isoflavones. The recent advances in the discovery and evaluation of the promiscuous nuclear receptors that bind many different chemical ligands should prove to help explain some of the biological effects of soy isoflavones and other phytochemicals.

Nutrition and Disease Prevention, 2004

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavonecontaining soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathionesulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-relate...

The Journal of Nutrition, 2007

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavonecontaining soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathionesulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-related induction of 12-a-hydroxylase (CYP8B1) was further studied in other in vitro and murine in vivo models. Transfection studies suggest that isoflavones may act as a weak activating ligand for hepatocyte nuclear factor 4a, which in turn may activate the transcription of CYP8B1. The action of soy isoflavones on CYP8B1 may increase the conversion of cholesterol into bile acids and enhance synthesis of cholic acid. These isoflavoneinduced changes in gene expression may help explain how isoflavones modulate cholesterol metabolism.

The Journal of Nutrition, 2003

The hypocholesterolemic and anti-atherosclerotic mechanism by which soy may exert a beneficial ef... more The hypocholesterolemic and anti-atherosclerotic mechanism by which soy may exert a beneficial effect remains unclear. Peroxisome-proliferator activated receptors (PPAR) are promiscuous nuclear receptors that regulate the transcription of genes involved in lipid and glucose homeostasis and lipid metabolism within the cell. We hypothesize that the isoflavones improve lipid and glucose metabolism by acting as an antidiabetic PPAR agonist. Male and female obese Zucker rats (OZR) were used as a model of Type 2 diabetes, and OZR fed a high isoflavone soy protein diet displayed improvements in lipid metabolism consistent with results in humans treated with antidiabetic PPAR agonists such as the fibrates or glitazones. Liver triglyceride and cholesterol concentrations were lower in all OZR fed high-isoflavone soy protein diets than in rats fed low-isoflavone and casein diets (P Ͻ 0.05). Concurrently, PPAR-directed gene expression was evaluated in a cell culture model. An isoflavonecontaining soy extract doubled PPAR-directed gene expression (P Ͻ 0.05) in RAW 264.7 cells containing either a PPAR␣ or PPAR␥ expression plasmid. A similar induction was observed when the soy isoflavones genistein or daidzein were used to treat cells. Both isoflavones doubled PPAR␣-directed gene expression (P Ͻ 0.05), whereas they increased PPAR␥-directed gene expression 200-400% (P Ͻ 0.05). This study suggests that soy isoflavones improve lipid metabolism, produce an antidiabetic effect, and activate PPAR receptors.

The Journal of Nutrition, 2007

The Journal of nutrition, 2002

Soy intake reduces cholesterol levels, but neither the exact component in soy causing this reduct... more Soy intake reduces cholesterol levels, but neither the exact component in soy causing this reduction nor the mechanism by which cholesterol is reduced is known with certainty. In this study, a genetic screen was performed to identify hepatic mRNA in gerbils regulated by soy or soy isoflavones. Gerbils were fed casein, an alcohol-washed soy-based diet (containing low levels of isoflavones), and the soy-based diet supplemented with an isoflavone-containing soy extract. After feeding for 28 d, gerbils were killed, hepatic RNA was isolated, and genes that were differentially expressed in any of the three dietary conditions were identified. Fifteen different mRNA were originally selected, including two mRNA that were studied further and shown to be highly regulated. Messenger RNA levels for both cytochrome P450-2A and phosphoribosylpyrophosphate synthetase-associated protein were up-regulated in a dose-dependent manner when soy replaced casein in the diet at 0, 33, 67 and 100% of origina...

Physiological Genomics, 2006

Intake of soy protein has been associated with improvements in lipid metabolism, with much attent... more Intake of soy protein has been associated with improvements in lipid metabolism, with much attention being focused on the serum cholesterol-lowering property of soy. The component or components of soy that are responsible for improvements in lipid metabolism have been investigated and their specific actions debated. One component, the isoflavones, has been shown to have weak estrogenic activity, and recently, several research groups have suggested that isoflavones are activating peroxisome proliferator-activated receptors (PPARs). The three different isoforms of PPARs (α, γ, and δ) have overlapping tissue distributions and functions associated with lipid metabolism. The goal of the present study was to investigate the hypothesis that the effect of isoflavones is mediated through the PPARα receptor. Male and female 129/Sv mice were obtained, including both wild-type and genetically altered PPARα knockout mice. Groups of mice were fed high-fat atherogenic diets containing soy protein ...

The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metab... more The transport and metabolism of xenobiotics is controlled by the drug transporters and drug-metabolizing enzymes in the liver and small intestine. Expression of these genes is 1 factor affecting the half-life of drugs and xenobiotics. Isoflavone- containing soyfood products and supplements are promoted to treat several different health conditions, including improvement of blood lipid profiles. Because relatively high isoflavone intake may be possible via use of supplements, we tested the hypothesis that isoflavones regulate the expression of genes critical to drug transport and metabolism. Using a gene array screening method, 2 drug transporters, Multidrug restistant-1 and Multidrug-related protein-2; 3 phase I enzymes, cytochrome 1A1, 3A4, and 8B1; and 2 phase II enzymes, carbohydrate sulfotransferase-5 and glutathione- sulfotransferase-2, were upregulated 3-fold or more of the initial expression levels in primary human hepatocytes exposed to soy isoflavones for 48 h. Isoflavone-re...

The Journal of Nutritional Biochemistry, 2005

Consumption of soy has been demonstrated to reduce circulating cholesterol levels, most notably r... more Consumption of soy has been demonstrated to reduce circulating cholesterol levels, most notably reducing low-density lipoprotein (LDL) cholesterol levels in hypercholesterolemic individuals. The component or components that might be responsible for this effect is still a matter of debate or controversy among many researchers. Candidate agents include an activity of soy protein itself, bioactive peptides produced during the digestive process, or the soy isoflavones. Although soy intake may provide other health benefits including preventative or remediative effects on cancer, osteoporosis and symptoms of menopause, this review will focus on isoflavones as agents affecting lipid metabolism. Isoflavones were first discovered as a bioactive agent disrupting estrogen action in female sheep, thereby earning the often-used term dphytoestrogensT. Subsequent work confirmed the ability of isoflavones to bind to estrogen receptors. Along with the cholesterollowering effect of soy intake, research that is more recent has pointed to a beneficial antidiabetic effect of soy intake, perhaps mediated by soy isoflavones. The two common categories of antidiabetic drugs acting on nuclear receptors known as peroxisome proliferator activated receptors (PPARs) are the fibrates and glitazones. We and others have recently asked the research question ddo the soy isoflavones have activities as either bphytofibratesQ or bphytoglitazonesQ?T Such an activity should be able to be confirmed both in vivo and in vitro. In both the in vivo and in vitro cases, this action has indeed been confirmed. Further work suggests a possible action of isoflavones similar to the nonestrogenic ligands that bind the estrogen-related receptors (ERRs). Recently, these receptors have been demonstrated to contribute to lipolytic processes. Finally, evaluation of receptor activation studies suggests that thyroid receptor activation may provide additional clues explaining the metabolic action of isoflavones. The recent advances in the discovery and evaluation of the promiscuous nuclear receptors that bind many different chemical ligands should prove to help explain some of the biological effects of soy isoflavones and other phytochemicals.

Nutrition and Disease Prevention, 2004