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      Metabolism of the Marine Phycotoxin PTX-2 and Its Effects on Hepatic Xenobiotic Metabolism: Activation of Nuclear Receptors and Modulation of the Phase I Cytochrome P450

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          Abstract

          PTX-2 is a marine biotoxin frequently found in shellfish that can lead to food intoxication in humans. Information regarding PTX-2 metabolism is scarce, and little is known of its effect on xenobiotic-metabolizing enzymes (XME) or its molecular pathways. The aim of this study was consequently to examine PTX-2 Phase I metabolism using rat and human liver S9 fractions, and also to assess the capability of PTX-2: (i) to modulate the gene expression of a panel of Phase I (CYP450) and II (UGT, SULT, NAT, and GST) enzymes, as well as the Phase III or 0 (ABC and SLCO) transporters in the human hepatic HepaRG cell line using qPCR; (ii) to induce specific CYP450 in HepaRG cells measured by immunolabeling detection and the measurement of the cells’ activities; and (iii) to activate nuclear receptors and induce CYP promoter activities in HEK-T and HepG2 transfected cell lines using transactivation and reporter gene assay, respectively. Our results indicate that PTX-2 hydroxylation occurred with both rat and human S9 fractions. Whereas PTX-2 mostly upregulated the gene expression of CYP1A1 and 1A2, no induction of these two CYP activities was observed. Lastly, PTX-2 did not act as an agonist of CAR or PXR. Due to its effects on some key XME, more attention should be paid to possible drug–drug interactions with phycotoxins, especially as shellfish can accumulate several phycotoxins as well as other kinds of contaminants.

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          The aryl hydrocarbon receptor complex and the control of gene expression.

          Timothy V Beischlag, J Luis Morales, Brett D Hollingshead (2008)
          The aryl hydrocarbon receptor (AhR) is a ligand-activated transcription factor that controls the expression of a diverse set of genes. The toxicity of the potent AhR ligand 2,3,7,8-tetrachlorodibenzo-p-dioxin is almost exclusively mediated through this receptor. However, the key alterations in gene expression that mediate toxicity are poorly understood. It has been established through characterization of AhR-null mice that the AhR has a required physiological function, yet how endogenous mediators regulate this orphan receptor remains to be established. A picture as to how the AhR/ARNT heterodimer actually mediates gene transcription is starting to emerge. The AhR/ARNT complex can alter transcription both by binding to its cognate response element and through tethering to other transcription factors. In addition, many of the coregulatory proteins necessary for AhR-mediated transcription have been identified. Cross talk between the estrogen receptor and the AhR at the promoter of target genes appears to be an important mode of regulation. Inflammatory signaling pathways and the AhR also appear to be another important site of cross talk at the level of transcription. A major focus of this review is to highlight experimental efforts to characterize nonclassical mechanisms of AhR-mediated modulation of gene transcription.
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            Role of CAR and PXR in xenobiotic sensing and metabolism.

            Yue-Ming Wang, Su Sien Ong, Sergio C Chai (2012)
            The xenobiotic detoxification system, which protects the human body from external chemicals, comprises drug-metabolizing enzymes and transporters whose expressions are regulated by pregnane X receptor (PXR) and the constitutive androstane receptor (CAR). The progress made in a large number of recent studies calls for a timely review to summarize and highlight these key discoveries. This review summarizes recent advances in elucidating the roles of PXR and CAR in the xenobiotic detoxification system. It also highlights the progress in understanding the regulation of PXR and CAR activity at the post-translational levels, as well as the structural basis for the regulation of these two xenobiotic sensors. Future efforts are needed to discover novel agonists and antagonists with species and isoform selectivity, to systematically understand the regulation of PXR and CAR at multiple levels (transcriptional, post-transcriptional and post-translational levels) in response to xenobiotics exposure, and to solve the structures of the full-length receptors, which will be enabled by improved protein expression and purification techniques and approaches. In addition, more efforts will be needed to validate PXR and CAR as disease-related therapeutic targets and thus expand their roles as master xenobiotic sensors.
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              Isolation of pectenotoxin-2 from Dinophysis acuta and its conversion to pectenotoxin-2 seco acid, and preliminary assessment of their acute toxicities.

              Christopher Miles, Shannon Briggs, Rex Munday (2003)
              We have developed a simple and effective method for isolating pectenotoxin-2 (PTX-2) from Dinophysis cells collected from a natural bloom. A two-step extraction procedure followed by two column chromatography steps produced PTX-2 in high purity suitable for use as an analytical standard and for toxicological studies. Incubation of purified PTX-2 with the supernatant from ultracentrifuged blue (Mytilus edulis) or Greenshell (Perna canaliculus) mussel hepatopancreas homogenate caused rapid conversion to pectenotoxin-2 seco acid (PTX-2 SA). Purification of PTX-2 SA was achieved by solvent extraction followed by column chromatography. PTX-2 and PTX-2 SA were fully characterized by LC-MS and NMR, and full (1)H and (13)C NMR assignments were obtained. Okadaic acid C(8)-diol ester was isolated during the purification of PTX-2, and its identity confirmed by NMR and LC-MS analyses. Pectenotoxin-2 seco acid methyl ester, identified by LC-MS, was also produced during the hydrolytic procedure due to the presence of methanol. PTX-2 was acutely toxic to mice by i.p. injection (LD(50)=219 microg/kg) but no effects were seen with PTX-2 SA at 5000 microg/kg. Neither PTX-2 nor PTX-2 SA was overtly toxic to mice by the oral route at doses up to 5000 microg/kg. No diarrhea was observed in mice dosed with either compound, suggesting that pectenotoxins do not belong in the diarrhetic shellfish poison group.
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                Author and article information

                Contributors
                Luis M. Botana: Role: Academic Editor
                Journal
                Journal ID (nlm-ta): Toxins (Basel)
                Journal ID (iso-abbrev): Toxins (Basel)
                Journal ID (publisher-id): toxins
                Title: Toxins
                Publisher: MDPI
                ISSN (Electronic): 2072-6651
                Publication date (Electronic): 05 July 2017
                Publication date Collection: July 2017
                Volume: 9
                Issue: 7
                Electronic Location Identifier: 212
                Affiliations
                [1 ]Toxicology of Contaminants Unit, French Agency for Food, Environmental and Occupational Health & Safety, ANSES, 35306 Fougères, France; jimmy.alarcan@ 123456anses.fr (J.A.); antoine.huguet@ 123456anses.fr (A.H.); valerie.fessard@ 123456anses.fr (V.F.)
                [2 ]Analysis of Residues and Contaminants Unit, French Agency for Food, Environmental and Occupational Health & Safety, ANSES, 35306 Fougères, France; estelle.dubreil@ 123456anses.fr (E.D.); dominique.pessel@ 123456anses.fr (D.H.-P.)
                [3 ]Federal Institute for Risk Assessment, Department of Food Safety, Max-Dohrn-Straße 8-10, 10589 Berlin, Germany; Stefanie.Hessel-Pras@ 123456bfr.bund.de (S.H.-P.); Alfonso.Lampen@ 123456bfr.bund.de (A.L.)
                Author notes
                [* ]Correspondence: ludovic.lehegarat@ 123456anses.fr ; Tel.: +33-02-9917-2747
                Author information
                https://orcid.org/0000-0003-3494-4109
                Article
                Publisher ID: toxins-09-00212
                DOI: 10.3390/toxins9070212
                PMC ID: 5535159
                PubMed ID: 28678150
                SO-VID: 1e444f45-9441-468a-a12b-c3e5aeb3e816
                Copyright © © 2017 by the authors.
                License:

                Licensee MDPI, Basel, Switzerland. This article is an open access article distributed under the terms and conditions of the Creative Commons Attribution (CC BY) license ( http://creativecommons.org/licenses/by/4.0/).

                History
                Date received : 15 June 2017
                Date accepted : 01 July 2017
                Categories
                Subject: Article

                ScienceOpen disciplines: Molecular medicine
                Keywords: ptx-2,metabolism,cyp450,nuclear receptors
                Data availability:
                ScienceOpen disciplines: Molecular medicine
                Keywords: ptx-2, metabolism, cyp450, nuclear receptors

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