Metabolic Fate of [14C]Diuron and [14C]Linuron in Wheat (Triticum aestivum) and Radish (Raphanus sativus)

Metabolism of xenobiotics in plants usually occurs in three phases, phase I (primary metabolism), phase II (conjugation processes), and phase III (storage). The uptake and metabolism of [14C]diuron and [14C]linuron were investigated in wheat and radish. Seeds were sown in quartz sand and irrigated with a nutrient solution of either radioactive herbicide. Plants were harvested after two weeks, and metabolites were extracted and then analyzed by radio-reverse-high-performance liquid chromatography (HPLC). Uptake of the two molecules was higher in radish compared to wheat. Translocation of parent compounds and related metabolites from roots to aerial plant parts was important, especially for radish. A large proportion of extractable residues were found in radish whereas nonextractable residues amounted to 30% in wheat, mainly associated with roots. Chemical structure of metabolites was thereafter identified by acid, alkaline, and enzymatic hydrolyses followed by electrospray ionization mass spectrometry (ESI-MS) and proton nuclear magnetic resonance spectroscopy (1H NMR). This study highlighted the presence of diuron and linuron metabolites conjugated to sugars in addition to N-demethylation and N-demethoxylation products

Retardateurs de flamme bromés (métabolites actifs et biomarqueurs d'exposition chez l'homme)

Les retardateurs de flamme bromés sont des agents ignifuges utilisés dans de nombreux produits manufacturés. Les plus courants sont les polybromodiphényl éther (PBDE), le tétrabromo-bisphénol A (TBBPA) et l'hexabromocyclododécane (HBCD). Ces composés considérés comme des polluants organiques persistants (POPs) sont désormais retrouvés dans l'environnement et chez l'Homme, et sont suspectés, ainsi que leurs métabolites, d'être des perturbateurs endocriniens. Des développements analytiques basés sur la spectrométrie de masse ont été engagés afin d'étudier le métabolisme in vitro du TBBPA et des PBDE et rechercher les composés parents et leurs métabolites dans différents prélèvements d'origine humaine. Les métabolites formés chez l'Homme ont ainsi été identifiés comme étant des conjugués pour le TBBPA, et des dérivés hydroxylés, dihydrodiol et conjugués pour les PBDE. La plupart de ces métabolites ont été identifiés et quantifiés dans les fluides biologiques humains, démontrant ainsi l'exposition du foetus et du nouveau-né à ces composés, à des niveaux similaires à ceux retrouvé dans d'autres pays. D'un point de vue qualitatif, la présence de métabolites potentiellement actifs sur des cibles cellulaires a été mise en évidence, ainsi que le passage des résidus vers le lait (TBBPA, HBCD) et/ou au travers de la barrière placentaire (TBBPA et PBDE). Un métabolite spécifique, présent en importantes (octa-BDE hydroxylé) pourrait être un bon biomarqueur d'exposition, et son potentiel toxique devrait par ailleurs être étudiéBrominated Flame Retardants are widely used for the manufacture of fire-proofed industrial products and consumer goods. Major BFRs are polybromodiphenyl ether (PBDE), tetrabromobisphenol A (TBBPA) and hexabromocyclododecane (HBCD). Considered as persistent organic pollutants (POPs), they are detected in various environmental compartments and human samples. Parent compounds as well as several metabolites could act as endocrine disruptors. Methodological developments based on mass spectrometry, in vitro approaches (TBBPA, PBDE) and an extensive review of the available literature have been used to sharpen our current knowledge of the fate of BFR, and to identify both parent compounds and metabolite in human samples. Results obtained in vitro using human primary hepatocyte cultures as well as human cell lines show that human cells biotransform TBBPA into conjugated metabolites and PBDE into hydroxylated, dihydrodiol and conjugated metabolites. Those metabolites were detected in human samples, demonstrating foetal and newborn exposition. BFR and some of their metabolites, including bioactive compounds, are transferred through the placental barrier (TBBPA, PBDE) and/or into milk (TBBPA, HBCD). Even though the monitored concentration levels were found to be low, one of these metabolites, namely (OH-octaBDE) was found to be abundant in almost all serum samples, and appears to be a relevant candidate biomarker of exposureTOULOUSE-ENSAT-Documentation (315552324) / SudocSudocFranceF

Relation between crust development and heterocyclic aromatic amine formation when air-roasting a meat cylinder

The meat crust that develops during cooking is desired by consumers for its organoleptic properties, but it is also where heterocyclic aromatic amines (HAs) are formed. Here we measured HAs formation during the development of a colored crust on the surface of a beef meat piece. HAs formation was lower in the crust than previously measured in meat slices subjected to the same air jet conditions. This difference is explained by a lower average temperature in the colored crust than in the meat slices. Temperature effects can also explain why colored crust failed to reproduce the plateauing and decrease in HAs content observed in meat slices. We observed a decrease in creatine content from the center of the meat piece to the crust area. In terms of the implications for practice, specific heating conditions can be found to maintain a roast beef meat aspect while dramatically reducing HAs content

Biotransformations of bisphenol A in a mammalian model: answers and new questions raised by low-dose metabolic fate studies in pregnant CD1 mice.

We investigated the metabolic fate of a low dose (25 micro g/kg) of bisphenol A [2,2-bis(4-hydroxy-phenyl)propane] (BPA) injected subcutaneously in CD1 pregnant mice using a tritium-labeled molecule. Analytic methods were developed to allow a radio-chromatographic profiling of BPA residues in excreta and tissues, as well as in mothers' reproductive tracts and fetuses, that contained more than 4% of the administered radioactivity. BPA was extensively metabolized by CD1 mice. Identified metabolite structures included the glucuronic acid conjugate of BPA, several double conjugates, and conjugated methoxylated compounds, demonstrating the formation of potentially reactive intermediates. Fetal radioactivity was associated with unchanged BPA, BPA glucuronide, and a disaccharide conjugate. The latter structure, as well as that of a dehydrated glucuronide conjugate of BPA (a major metabolite isolated from the digestive tract), showed that BPA metabolic routes were far more complex than previously thought. The estrogenicity of the metabolites that were identified but not tested for hormonal activity cannot be ruled out; however, in general, conjugated BPA metabolites have significantly lower potency than that of the parent compound. Thus, these data suggest the parental compound is responsible for the estrogenic effects observed in fetuses exposed to BPA during gestation in this mammalian model

Laboratory simulation of captan residues degradation during apple processing

The degradation of captan residues during the processing of apple to sterilised purée was investigated using laboratory small-scale processing (125 °C for 20 min and pH 4.0). [14C]-cyclohexene ring-labelled captan was completely degraded, mainly to tetrahydrophthalimide (96.5%). Other minor products such as tetrahydrophthalic acid (0.3) and tetrahydrophthalamic acid (0.2) were identified by HPLC and mass spectrometry. [14C]-trichloromethylthio-labelled captan was completely degraded essentially to [14C]CO2 (77%) accompanied by small amounts of [14C]CS2 (2%). Thiophosgene was not detectable. Approximately 11.5% of the radioactivity was non-extractable and was believed to result from the reaction of the trichloromethylthio moeity with endogenous compounds of the apple, e.g. protein. The results were compared with those obtained in buffer medium mimicking the same process

Use of reconstituted metabolic networks to assist in metabolomic data visualization and mining

Metabolomics experiments seldom achieve their aim of comprehensively covering the entire metabolome. However, important information can be gleaned even from sparse datasets, which can be facilitated by placing the results within the context of known metabolic networks. Here we present a method that allows the automatic assignment of identified metabolites to positions within known metabolic networks, and, furthermore, allows automated extraction of sub-networks of biological significance. This latter feature is possible by use of a gap-filling algorithm. The utility of the algorithm in reconstructing and mining of metabolomics data is shown on two independent datasets generated with LC–MS LTQ-Orbitrap mass spectrometry. Biologically relevant metabolic sub-networks were extracted from both datasets. Moreover, a number of metabolites, whose presence eluded automatic selection within mass spectra, could be identified retrospectively by virtue of their inferred presence through gap filling

Obesity promotes fumonisin B1 hepatotoxicity

Obesity, which is a worldwide public health issue, is associated with chronic inflammation that contribute to long-term complications, including insulin resistance, type 2 diabetes and non-alcoholic fatty liver disease. We hypothesized that obesity may also influence the sensitivity to food contaminants, such as fumonisin B1 (FB1), a mycotoxin produced mainly by the Fusarium verticillioides. FB1, a common contaminant of corn, is the most abundant and best characterized member of the fumonisins family. We investigated whether diet-induced obesity could modulate the sensitivity to oral FB1 exposure, with emphasis on gut health and hepatotoxicity. Thus, metabolic effects of FB1 were assessed in obese and non-obese male C57BL/6J mice. Mice received a high-fat diet (HFD) or normal chow diet (CHOW) for 15 weeks. Then, during the last three weeks, mice were exposed to these diets in combination or not with FB1 (10 mg/kg body weight/day) through drinking water. As expected, HFD feeding induced significant body weight gain, increased fasting glycemia, and hepatic steatosis. Combined exposure to HFD and FB1 resulted in body weight loss and a decrease in fasting blood glucose level. This co-exposition also induces gut dysbiosis, an increase in plasma FB1 level, a decrease in liver weight and hepatic steatosis. Moreover, plasma transaminase levels were significantly increased and associated with liver inflammation in HFD/FB1-treated mice. Liver gene expression analysis revealed that the combined exposure to HFD and FB1 was associated with reduced expression of genes involved in lipogenesis and increased expression of immune response and cell cycle-associated genes. These results suggest that, in the context of obesity, FB1 exposure promotes gut dysbiosis and severe liver inflammation. To our knowledge, this study provides the first example of obesity-induced hepatitis in response to a food contaminant.L.D. PhD was supported by the INRAE Animal Health department. This work was also supported by grants from the French National Research Agency (ANR) Fumolip (ANR-16-CE21-0003) and the Hepatomics FEDER program of Région Occitanie. We thank Prof Wentzel C. Gelderblom for generously providing the FB1 and for his interest and support in our project. B.C. laboratory is supported by a Starting Grant from the European Research Council (ERC) under the European Union's Horizon 2020 research and innovation program (grant agreement No. ERC-2018-StG- 804135), a Chaire d'Excellence from IdEx Université de Paris - ANR-18-IDEX-0001, an Innovator Award from the Kenneth Rainin Foundation, an ANR grant EMULBIONT ANR-21-CE15-0042-01 and the national program “Microbiote” from INSERM. We thank Anexplo (Genotoul, Toulouse) for their excellent work on plasma biochemistry. Neutral Lipids MS and NMR experiments were performed with instruments in the Metatoul-AXIOM platform. Sphingolipid MS analysis were performed with instruments in the RUBAM platform. The FB1 plasma levels were determined using an UPLC-MS/MS instrument part of the Ghent University MSsmall expertise centre for advanced mass spectrometry analysis of small organic molecules. We thank Elodie Rousseau-Bacquié and all members of the EZOP staff for their assistance in the animal facility. We are very grateful to Talal al Saati for histology analyses and review, and we thank all members of the US006/CREFRE staff at the histology facility and the Genom'IC platforms (INSERM U1016, Paris, France) for their expertise.Peer reviewe

A large scale multi-laboratory suspect screening of pesticide metabolites in human biomonitoring: From tentative annotations to verified occurrences

Within the Human Biomonitoring for Europe initiative (HBM4EU), a study to determine new biomarkers of exposure to pesticides and to assess exposure patterns was conducted. Human urine samples (N = 2,088) were collected from five European regions in two different seasons. The objective of the study was to identify pesticides and their metabolites in collected urine samples with a harmonized suspect screening approach based on liquid chromatography coupled to high resolution mass spectrometry (LC-HRMS) applied in five laboratories. A combined data processing workflow included comprehensive data reduction, correction of mass error and retention time (RT) drifts, isotopic pattern analysis, adduct and elemental composition annotation, finalized by a mining of the elemental compositions for possible annotations of pesticide metabolites. The obtained tentative annotations (n = 498) were used for acquiring representative data-dependent tandem mass spectra (MS2) and verified by spectral comparison to reference spectra generated from commercially available reference standards or produced through human liver S9 in vitro incubation experiments. 14 parent pesticides and 71 metabolites (including 16 glucuronide and 11 sulfate conjugates) were detected. Collectively these related to 46 unique pesticides. For the remaining tentative annotations either (i) no data-dependent MS2 spectra could be acquired, (ii) the spectral purity was too low for sufficient matching, or (iii) RTs indicated a wrong annotation, leaving potential for more pesticides and/or their metabolites being confirmed in further studies. Thus, the reported results are reflecting only a part of the possible pesticide exposure