TY - JOUR A1 - Banning, Anja A1 - Deubel, S. A1 - Kluth, Dirk A1 - Zhou, Z. W. A1 - Brigelius-Flohé, Regina T1 - The GI-GPx gene is a target for Nrf2 N2 - The gastrointestinal glutathione peroxidase (GI-GPx, GPx2) is a selenoprotein that was suggested to act as barrier against hydroperoxide absorption but has also been implicated in the control of inflammation and malignant growth. In CaCo-2 cells, GI-GPx was induced by t-butyl hydroquinone (tBHQ) and sulforaphane (SFN), i.e., "antioxidants" known to activate the "antioxidant response element" (ARE) via electrophilic thiol modification of Keap1 in the Nrf2/ Keap1 system. The functional significance of a putative ARE in the GI-GPx promoter was validated by transcriptional activation of reporter gene constructs upon exposure to electrophiles (tBHQ, SFN, and curcumin) or overexpression of Nrf2 and by reversal of these effects by mutation of the ARE in the promoter and by overexpressed Keap1. Binding of Nrf2 to the ARE sequence in authentic gpx2 was corroborated by chromatin immunoprecipitation. Thus, the presumed natural antioxidants sulforaphane and curcumin may exert their anti-inflammatory and anticarcinogenic effects not only by induction of phase 2 enzymes but also by the up-regulation of the selenoprotein GI-GPx Y1 - 2005 SN - 0270-7306 ER - TY - JOUR A1 - Rühl, Ralph A1 - Sczech, Ronny A1 - Landes, Nico A1 - Pfluger, Paul Thomas A1 - Kluth, Dirk A1 - Schweigert, Florian J. T1 - Carotenoids and their metabolites are naturally occurring activators of gene expression via the pregnane X receptor N2 - Carotenoids are important micronutrients in the human diet and are present in human serum at micromolar concentrations. In addition to their antioxidant potential, carotenoids obtain physiologically relevant properties such as influencing cellular signal pathways, gene expression or induction of detoxifying enzymes. In this study, we determined the transactivation of PXR by cotransfection with the full-length receptor and a PXR-responsive reporter gene. Carotenoids and retinol revealed a 5-6-fold reporter gene activity in HepG2 cells in comparison to a 7-fold induction by the well known PXR agonist rifampicin whereas apo-carotenals and lycopene exerted less or no activation potential. The inductive efficacy was hereby concentration-dependent. In addition, carotenoid or retinol mediated gene expression of PXR responsive genes like CYP3A4/CYP3A7, CYP3A5, MDR-1 and MRP-2 has been determined in HepG2 cells by RT- PCR with upregulative properties of beta-carotene or retinol being comparable or even higher than that of rifampicin. In conclusion, PXR-mediated upregulation of CYP3A4/CYP3A7 and CYP3A5 as well as MDR1 and MRP2 by carotenoids points to a potential interference on the metabolism of xenobiotic and endogenous relevant compounds Y1 - 2004 ER - TY - THES A1 - Kluth, Dirk T1 - Vom Antioxidanz zum Genregulator : transkriptionelle Regulation von Phase I- und Phase II-Enzymen durch Vitamin E und antioxidative sekundäre Pflanzeninhaltsstoffe T1 - From antioxidant to gene regulator : transcriptional regulation of phase I- and phase II-enzymes by vitamin E and antioxidative secondary plant compounds N2 - Nahrungsinhaltsstoffe sind im Organismus an Steuerungsprozessen und Stoffwechselvorgängen beteiligt, wobei die Mechanismen ihrer Wirkung noch nicht völlig aufgeklärt sind. Wie Vitamin E zeigen auch sekundäre Pflanzeninhaltsstoffe in Zellsystemen sowie in vivo eine Reihe biologischer Wirkungen, deren Erklärung jedoch häufig auf ihre antioxidative Eigenschaft reduziert wird. Ziel der Dissertation war es, den Einfluss von Vitamin E und anderen Pflanzeninhaltsstoffen (in Form von Pflanzenextrakten oder isolierten sekundären Pflanzeninhaltsstoffen, z.B. Polyphenole), die bisher alle hauptsächlich als Antioxidanz klassifiziert wurden, auf die transkriptionelle Regulation von Phase I- und Phase II-Enzymen zu untersuchen. Dazu wurde die Aktivierung des PXR (pregnane X receptor) und des Nrf2 (NF-E2-related factor-2) als zentrale Transkriptionsfaktoren der Phase I- bzw. Phase II-Enzyme getestet. Der Einfluss von verschiedenen Vitamin E-Formen und antioxidativen Pflanzeninhaltsstoffen in Form von Reinsubstanzen (Curcumin, EGCG, Medox, Quercetin, Resveratrol und Sulforaphan) oder Pflanzenextrakten (aus Blaubeeren, Gewürznelken, Himbeeren, Nelkenpfeffer, Thymian oder Walnüssen) auf die Aktivierung von PXR und Nrf2 sowie des Promotors eines jeweiligen Zielgens (CYP3A4 bzw. GI-GPx) wurde in vitro mit Reportergenplasmiden untersucht. Es zeigte sich, dass sowohl Vitamin E-Formen als auch verschiedene sekundäre Pflanzeninhaltsstoffe PXR und/oder Nrf2 sowie die Promotoren der jeweiligen Zielgene CYP3A4 bzw. GI-GPx aktivieren. In einem Tierexperiment konnte diese genregulatorische Wirkung von Vitamin E auf die in vivo-Situation übertragen werden. In Lebern von Mäusen, deren Futter unterschiedliche Mengen von Vitamin E enthielt (Mangel-, Normal- und Überflussdiät), wurde eine direkte Korrelation zwischen der alpha-Tocopherol-Konzentration und der Cyp3a11 mRNA-Expression nachgewiesen (Cyp3a11 ist das murine Homolog zum humanen CYP3A4). Entgegen der in vitro-Situation hatte gamma-Tocotrienol in vivo einen nur kaum nachweisbaren Effekt auf die Expression der Cyp3a11 mRNA, induzierte aber die Expression der alpha-TTP mRNA. Es konnte gezeigt werden, dass Vitamin E und sekundäre Pflanzeninhaltsstoffe Phase I- und Phase II-Enzyme transkriptionell regulieren können. Die Wirkungen des Vitamin E können sich allerdings nur entfalten, wenn die Vitamin E-Formen ausreichend vom Körper aufgenommen werden. Gegenstand der Dissertation waren daher auch Untersuchungen zur Bioverfügbarkeit (zelluläre Akkumulation und Metabolismus) verschiedener Vitamin E-Formen. Es konnte gezeigt werden, dass Unterschiede in der chemischen Struktur der Vitamin E-Formen deren zelluläre Akkumulation und Metabolisierung beeinflussen. Unter Berücksichtigung der Ergebnisse der Dissertation lassen sich protektive Wirkungen von antioxidativen Nahrungsinhaltsstoffen auch unabhängig von ihren antioxidativen Eigenschaften über die Induktion zelleigener Schutzsysteme, einschließlich der Phase I- und Phase II-Enzyme, erklären. Die Induktion der zelleigenen Abwehr lässt sich auch als adaptive Antwort (sog. "adaptive response") des Organismus gegenüber zellschädigenden Ereignissen betrachten. N2 - In the organism food compounds are involved in regulatory and metabolic processes although the mechanisms of their effects have not been completely elucidated yet. Like vitamin E, secondary plant compounds have diverse biological effects, both in cell systems as well as in vivo. However, the explanation thereof is often reduced to their antioxidative capacity. The aim of this thesis was to investigate the influence of vitamin E and other plant compounds (in form of plant extracts or isolated secondary plant compounds, e.g. polyphenols), which were up to now classified primarily as antioxidants, on the transcription of phase I- and phase II-enzymes. For this, the activation of central transcription factors of the phase I- or phase II enzymes, PXR (pregnane X receptor) and Nrf2 (NF-E2-related factor-2), was tested. The influence of different vitamin E forms and antioxidative plant compounds in form of pure substances (curcumin, EGCG, Medox, quercetin, resveratrol, and sulforaphane) or plant extracts (from blueberries, clove, raspberries, allspice, thyme, or walnuts) on the activation of PXR and Nrf2 as well as on the promoter of a respective target gene (CYP3A4 or GI-GPx) was investigated in vitro by reporter gene assays. It appeared that vitamin E forms as well as different secondary plant compounds activate PXR and/or Nrf2 as well as the promoter of the respective target genes CYP3A4 and GI-GPx. The effects of vitamin E were confirmed in vivo by an animal experiment. In livers of mice whose diet contained different amounts of vitamin E (deficient, adequate and supra-nutritional), a direct correlation between alpha-tocopherol content and Cyp3a11 mRNA expression was shown (Cyp3a11 is the murine homolog to the human CYP3A4). In contrast to the in vitro observations, gamma-tocotrienol in vivo only had a small effect on the expression of Cyp3a11 mRNA. However, it induced the expression of alpha-TTP on mRNA level. It could be shown that vitamin E and secondary plant compounds can influence the transcriptional regulation of phase I- and/or phase II-enzymes. However, these effects of vitamin E can only be seen if the vitamin E forms are taken up by the body sufficiently. Therefore, another aim of the thesis was to investigate the bioavailability of different vitamin E forms (i.e., cellular accumulation and metabolism). It could be shown that differences in the chemical structure of vitamin E forms influence their cellular accumulation and metabolism. Regarding the results of this thesis, protective effects of antioxidative food compounds can be explained independent of their antioxidative properties by the induction of cellular protective systems, including phase I- and phase II-enzymes. The induction of cellular defence mechanism can also be considered as an adaptive response of the organism towards cell-damaging events. KW - Vitamin E KW - Polyphenole KW - Genregulation KW - Biotransformation KW - Kernrezeptor KW - PXR KW - Nrf2 KW - CYP3A4 KW - Cyp3a11 KW - GI-GPx KW - PXR KW - Nrf2 KW - CYP3A4 KW - Cyp3a11 KW - GI-GPx Y1 - 2006 U6 - http://nbn-resolving.de/urn/resolver.pl?urn:nbn:de:kobv:517-opus-10060 ER -