The Synthesis and Characterization of Some N-Hydroxyaminopyrenes / N-Hydroxyaminopyrenes

Mills, William James

10 1900

Nitrated polycyclic aromatic hydrocarbons (nitro-PAH) are environmental contaminants that have been identified in extracts of particulates obtained from automobile exhaust, diesel exhaust, and power plant emissions. One of the most abundant nitro-PAH, 1-nitropyrene, has been found to be a powerful bacterial mutagen and a carcinogen in animal tests. In a bacterial strain (Salmonella tvphimurium TA98) 1- nitropyrene undergoes reduction and concomitant covalent binding to DNA, presumably via the N-hydroxy-l-aminopyrene. This labile compound was prepared by the ascorbic acid reduction of 1-nitrosopyrene and was characterized by high performance liquid chromatography (HPLC), combined liquid chromatography-mass spectrometry (LC-MS), ultraviolet-visible (UV-VIS), fluorescence and nuclear magnetic resonance (NMR) spectroscopy (1H and 15N) . In addition the pH stability and some reactions of this compound were studied. The 1,6- and 1,8-hydroxylaminonitropyrenes derived from the very potent mutagens 1,6- and 1,8 dinitropyrene were also synthesized and characterized by high performance liquid chromatography, ultraviolet-visible and nuclear magnetic resonance spectroscopy (1H and 15N) . / Thesis / Master of Science (MSc)

Etude des propriétés antimutagènes de l'Harpagophytum procumbens et de l'harpagoside : Généralisation aux plantes anti-inflammatoires / Antimutagenic activity of Harpagophytum procumbent and Harpagoside : Generalization to antiinflammatory plants

Luigi, Manon

16 December 2014

Le cancer est une maladie multifactorielle dont la première étape est souvent une mutation. Il est envisageable de prévenir l'apparition de cette maladie en limitant l'apparition de mutations. Le benzo(a)pyrène et le 1-nitropyrène sont deux mutagènes et cancérogènes très répandus dans notre environnement. Ces deux composés entrainent une réponse inflammatoire chez l'homme qui à son tour induit un stress oxydant aboutissant à des mutations. L'objectif de cette étude est de rechercher l'activité antimutagène de sept plantes médicinales et de deux molécules naturelles anti-inflammatoires, avec un intérêt plus développé pour l'Harpagophytum procumbens (HP) et son principal iridoïde : l'harpagoside. Elle consiste également à vérifier si l'activité anti-inflammatoire peut être reliée à une activité antimutagène. L'activité antimutagène a été étudiée au niveau des mutations chromosomiques à l'aide du test des micronoyaux sur lymphocytes humains, et au niveau des mutations ponctuelles à l'aide du test d'Ames. Tous les extraits HP, à l'exception de l'extrait méthanolique, possèdent une activité antimutagène importante dans le test des micronoyaux, mais aucun dans le test d'Ames. Pour les six autres plantes anti-inflammatoires, plus de la moitié des extraits possèdent une activité antimutagène. Nous avons montré que l'activité antioxydante n'est pas ou peu impliquée dans l'activité antimutagène. Il est probable que d'autres mécanismes d'action soient impliqués tels que l'inhibition de l'inflammation (NF-ĸB). C'est la première fois que ce type d'études est réalisé sur des plantes possédant une activité anti-inflammatoire et plus particulièrement sur l' Harpagophytum procumbens. / Cancer is a multifactorial disease in which the first step is often a mutation in the genome. It is then possible to prevent the onset of the disease by limiting the occurrence of mutations. Benzo (a) pyrene (BaP) and 1-nitropyrene (1-NPY) are two widespread mutagens and carcinogens in our environment. These two compounds produce an inflammatory response in humans which in turn induces oxidative stress leading to gene mutations. The objective of this study was to investigate the antimutagenic activity of seven medicinal plants and two natural anti-inflammatory molecules, especially in Harpagophytum procumbens (HP) with its major iridoid: harpagoside. However, also to check whether the anti-inflammatory activity may be related to antimutagenic activity. The antimutagenic activity was investigated with chromosomal mutations using the in vitro cytokinesis-block micronucleus assay in primary cultures of human lymphocytes, and at the point mutations using the Ames test. All HP extracts, except for the methanol extract, showed a significant anti-mutagenic activity in the micronucleus test. No antimutagenic activity could be detected by the Ames assay. For the six other anti-inflammatory plants, more than half of the extracts possessed an antimutagenic activity. We have shown that the antioxidant property was not responsible for the antimutagenic activity. Thus, it is likely that other mechanisms of action are involved, such as anti-adduct mechanism, inhibition of metabolism or inhibition of inflammation (NF-ĸB). This is the first report of antimutagenic properties of anti-inflammatory plants and more particularly of the Harpagophytum procumbens.

Antimutagène

Anti-Inflammatoire

Harpagophytum procumbens

Harpagoside

1-Nitropyrène

Test des micronoyaux

Antimutagenic effect

Anti-Inflammatory

Harpagophytum procumbens

Harpagoside

1-Nitropyrene

Cytokinesis-Block micronucleus assay

Etudes in vitro/in vivo de la toxicité de polluants atmosphériques. Implication du stress oxydant dans les mécanismes génotoxiques et sur la variation des paramètres biochimiques / In vitro/in vivo studies of air pollutants toxicity. Oxidative stress involvement in genotoxic mechanisms and in biochemical parameters changes

Cassien, Mathieu

24 March 2016

La pollution atmosphérique particulaire représente un facteur de risque potentiel même à de faibles concentrations. Quelle que soit leur composition, les nanoparticules (NP) sont parmi les plus nocives en raison de leur capacité à atteindre profondément les tissus pulmonaires, la circulation sanguine et les organes. Notre travail constitue une base solide dans la compréhension des effets induits par une sélection de polluants atmosphériques représentatifs, utilisés dans un contexte environnemental réaliste. Nos résultats in vitro fournissent l'évidence d'un effet génotoxique à dominance clastogène lors de l’exposition de cellules à des NP contenant du CeO2, qui d’une part exercent une action mécanique sur le noyau, et d’autre part stimulent la production de O2•- / H2O2 via la NADPH oxydase et la mitochondrie, favorisant la production d’HO•. En présence de 1-Nitropyrène, on observe selon la dose utilisée deux mécanismes génotoxiques successifs, passant d'une dominance aneugène à clastogène, cet effet étant relié à une surproduction de HO• détectable par RPE. L'étude in vivo chez le rat a mis en œuvre un système de génération d'aérosols de NP contenant des pesticides, réalisant une exposition quotidienne et chronique à de faibles doses. Un effet direct sur la fonction hémodynamique myocardique reflétant l'apparition de dommages cellulaires irréversibles a été observée, ainsi que des lésions rénales, hépatiques, et l'installation d'un stress oxydant et d’une inflammation systémiques. Sur le long terme, l'effet des NP modifie les profils lipidiques et favorise la survenue d’une intolérance au glucose. Des modes d'action spécifiques à chaque pesticide employé ont été proposés. / Epidemiological studies have consistently reported that particulate matter in ambient air pollution is associated with increases in cardiopulmonary diseases and mortality. Because they can deeply penetrate lung tissue, reaching blood stream and organs, nanoparticles (NPs) are considered particularly harmful. Here, our foray into the specific mutagenicity and cytotoxicity of NPs focused on manufactured nano-CeO2 (a fuel additive) and NPs known to form in air from a variety of atmospheric toxicants (eg, combustion residues, pesticides). We first revealed a genotoxic effect of nanoCeO2 on human fibroblasts by a clastogenic mechanism following stimulation of the release of O2•-/H2O2 by NADPH oxidase and mitochondria. However, upon exposure of these cells to nM doses of 1-nitropyrene (a combustion byproduct) promotion of DNA damage involving an aneugenic mechanism occurred before a clastogenic effect was seen at µM doses. Second, using a home-made chamber equipped with an aerosol generator, we determined indices of oxidative stress and tissue damage in rats chronically inhaling toxicant NPs for 1-5 months at environmentally relevant doses. Long term exposure, even at low NPs doses, provoked systemic oxidative stress, lipid peroxidation, kidney damage, liver dysfunction, changes in lipid profile and occurrence of disorders of glucose tolerance. Moreover, a strong impairment of hemodynamic performance was evidenced in hearts from NP-exposed rats. By extending literature data of the in vitro toxicity of NPs to the in vivo situation, our study incriminates the nano-sized components of atmospheric particulate matter as a privileged vector of genotoxicity and cardiotoxicity.

Pollution atmosphérique particulaire

Nanoparticules

1-Nitropyrène

Pesticides

Expositions in vitro/in vivo

Stress Oxydant

Inflammation

Génotoxicité

Ischémie/Reperfusion myocardique

Particulate air pollution

Nanoparticles

1-Nitropyrene

Pesticides

In vitro/in vivo exposures

Oxidative stress

Inflammation

Genotoxicity

Myocardial ischemia/reperfusion

Využití buněčné linie BEAS-2B pro analýzu mikrojader v genetické toxikologii / The use of BEAS-2B cell line for micronucleus assay in genetic toxicology

Červená, Tereza

January 2016

This thesis deals with the application of BEAS-2B cell line for micronucleus assay in genetic toxicology. It is divided into two main parts: a) theoretical introduction to the analysis and search for suitable models for testing the impact of air pollution and manufactured nanoparticles, b) practical part that describes the results of micronuclei induction by polycyclic aromatic hydrocarbons (PAHs), extractable organic matter (EOM) from diesel exhaust particles obtained from emissions of three types of fuel and engineered nanoparticles. BEAS-2B cell line is a nonmalignant human model of lung epithelium which seems to be suitable for micronucleus assay. This assay is commonly used for determining the genotoxicity of various substances to wide variety of cell cultures and also in human studies. In this thesis, the following substances were tested: benzo[a]pyrene, 3-nitrobenzanthrone and 1-nitropyrene as carcinogenic PAHs commonly found in polluted air; EOMs from exhaust particles of 100 % diesel fuel, a blend of diesel fuel and 30 % of biodiesel, 100 % biodiesel and two types of engineered nanoparticles (TiO2 and Ag). The cells were treated with the compounds for 28, 48 and 72 hours. The results confirm the suitability of BEAS-2B cell line as a model for testing the genotoxicity of substances under...

Voltametrická a amperometrická detekce genotoxických derivátů pyrenu pomocí bórem dopované diamantové filmové elektrody / Voltammetric and amperometric detection of genotoxic pyrene derivatives at boron-doped diamond film electrode

Yosypchuk, Oksana

January 2010

This thesis is concentrated on the optimization of conditions for determination of genotoxic environmental pollutants whitch belong to derivatives of polycyclic aromatic hydrocarbons − 1-nitropyrene (1-NP), 1-aminopyrene (1-AP) and 1-hydroxypyrene (1-HP). All three compounds were determined by differential pulse voltammetry (DPV) at boron-doped diamond film electrode in water-methanolic solutions. Further, 1-AP and 1-HP were determined in a model sample of urine. For this purpose, effective separative techniques such as solid phase extraction and high performance liquid chromatography with reverse phase and amperometric detection at above mentioned type of electrode were used. Limits of detection of all tested compounds in water-methanolic solutions are 9⋅10−8 −3⋅10−7 mol dm−3 using DPV and 1⋅10−8 mol dm−3 for 1-HP and 1-AP in model sample of urine determined by HPLC with amperometric detection.