Přenos energie ve studiu hydrofobních domén koloidních systémů / Energy transfer and hydrophobic domains in colloidal systems

Kučerová, Petra

January 2009

In this thesis resonance energy transfer between perylene and fluorescein in tetradecyltrimethylammonium bromide (TTAB) solution was studied. The influence of addition of native or modified sodium hyaluronate on resonance energy transfer was also investigated. The addition of native sodium hyaluronate supports energy transfer at lower fluorescein concentrations and the addition of modified sodium hyaluronate influences the maximal value of energy transfer effectivity. Strong influence on the critical micelle concentration (CMC) values with the addition of sodium hyaluronate during CMC of TTAB determination was investigated. The data indicates not only micelles formation, but also formation of aggregates of sodium hyaluronate with TTAB. Aggregation numbers of TTAB with addition of native and modified sodium hyaluronate by the quenching of pyrene by cetylpyridinium chloride (CPC) was investigated. The addition of sodium hyaluronate into the solution of TTAB changes the average mean aggregation number. Solute exchange between micelles of TTAB and the influence of addition of modified sodium hyaluronate on this exchange was also investigated. No solute exchange between micelles in TTAB and in TTAB with added modified sodium hyaluronate was discovered during this experiment.

Kinetika fotodegradace benzo[a]pyrenu a identifikace jeho produktů / Kinetics of benzo[a]pyrene destruction and identification of its products

Ryšavý, Jan

January 2010

This diploma thesis is focused on the study of conditions of benzo[a]pyrene, one of the major contaminant of foods, photodegradation under different conditions (solvents with different polarity, light sources, presence of antioxidants). In another part of the thesis, the degradation process of benzo[a]pyrene at various concentrations was studied, in order to characterise the kinetic aspects of photoinduced degradation. The attempt to identify the products of benzo[a]pyrene photodegradation was performed involving methods of gas chromatography and high performance liquid chromatography coupled with mass detectors, as well.

Zhášení fluorescence ve studiu agregačního chování koloidů / Fluorescence quenching in study of aggregation behavior of colloids

Srholcová, Barbora

January 2010

This work focuses on examination of hyaluronan-sulfactant aggregates in term of determination of aggregate number. The value of critical micellar concentration (CMC) cetyltrimethylammonium bromide (CTAB) in three different solvents (water, phosphate buffer and physiological solution). Next the effect of the native hyaluronan supplement on the value of CMC was examined. It wasfound out that the solvent has the biggest effect on the value of CMC whilst the hyaluronan supplement affects CMC only a little. The aggregate number (Nagg) CTAB and the effect of the native hyaluronan supplement were determined out by means of fluorescence quenching. Pyrene was used as a fluorescence probe. Iodine and cetylpyridinium chloride (CPC) were used as quenchers. Sulfactant was dissolved in three different solvents (water, phosphate buffer and physiological solution). Not only the hyaluronan supplement but also the used solvent has the strong effect on the value of the aggregate number. When using 10mM CTAB dissolved in physiological solution the value of Nagg was 119 ± 4 while the value was half in buffer. Then we found out that in most cases the hyaluronan supplement reduces the value of the aggregate number.

Srovnávací studie interakcí tenzidů s hyauronanem a jinými polyelektrolyty. / Comparative study of interaction between surfactant and hyaluronan and different polyelectrolytes.

Stiborský, Filip

January 2012

In this diploma thesis, the interactions between polyelectrolyte and surfactant at low and also at high concentration were studied. There was used pyrene as fluorescent probe during the fluorescence spectroscopy measurement, a cationic surfactant cetyltrimethylammonium bromide and as a main polyelectolyte has been chosen sodium polystyrene sulfonate at 1 MDa molecular size. In the medium containing 0.15 M NaCl we could observed a creation of the complexes – precipitates in the surrounding of CMC concentration and behind of this concentration. In the mixtures containing sodium polystyrene sulfonate and hyaluronan together, there was stronger tend to keep aggregation properties of sodium polystyrene sulfonate during difference concentration ratios. Beyond CMC concentration, hyaluronan starts to influence the aggregation properties of the system as well.

Molecularly imprinted polymers for detection of volatile organics associated with fuel combustion

Ngwanya, Olwethu

January 2018

Magister Scientiae - MSc (Chemistry) / Pollutants such as polycyclic aromatic hydrocarbons (PAHs) are known for their toxic effects which may lead to the cause of degenerative diseases in both humans and animals. PAHs are widespread in the environment, and may be found in water, food, automotive industry and petrochemical industries to name but a few sources. Literature reports have highlighted industrial workplace exposure to PAHs as a leading cause for development of cancer in workers. Particularly, workers in the petrochemical industry are adversely affected and the incidence of skin and lung cancer in this population group is high. The United States of America in its guidelines developed by environmental protection agency (EPA) has identified 18 PAHs as priority pollutants. Among these are anthracene, benzo[a]pyrene and pyrene which have been selected as the focal point of this study due to their significance in the petrochemical industry. Due to the carcinogenic and mutagenic properties reported in literature for certain PAHs, there have been monitoring procedures taken in most countries around the world. The commonly used analytical methods for the detection of PAHs from industrial samples are high performance liquid chromatography (HPLC) coupled to fluorescence detection, membrane filtration, ozonation and reverse osmosis. Analysis of PAHs from the petrochemical industry is typically performed by HPLC method as well as sono-degredation in the presence of oxygen and hydrogen peroxide.

New Supramolecular Ion Sensing Probes And Their Application In The Detection Of Environmentally Relevant Ions

Namita Kumari, *

07 1900

The thesis entitled “New Supramolecular Ion Sensing Probes and their Application in the Detection of Environmentally Relevant Ions” deals with the design and synthesis of several small molecular probes which can specifically sense environmentally relevant ions of (anion or cation) particularly in aqueous or biological medium. The probes have been designed using four different molecular entities which include anthraquinone, oxidized bis-indolyl system, pyrene and rhodamine. The probes afford naked eye detection of a particular ion in the aqueous medium. This work has been divided into six chapters. Chapter 1. Introduction The first chapter gives a brief idea of ion sensor. It provides the description of various approaches used for designing molecular sensors. The chapter further presents an overview of the four different dyes (anthraquinone, oxidized-bis-indole, pyrene and rhodamine) used for designing probes in this work. The properties of these probes, their advantages and disadvantages to use as a signaling subunit have been discussed. This chapter also describes the use of micellar medium for solubilizing different organic dyes in water. Chapter 2. Colorimetric Probes based on Anthraimidazolediones for Selective Sensing of Fluoride and Cyanide ion via Intramolecular Charge Transfer. The second chapter describes the design and synthesis of four different probes based on anthra [1, 2-d] imidazole-6, 11-dione. The anthraquinone part of each molecule has an acceptor moiety whereas substituted nitrogen linked aromatic unit forms the donor site. Each probe acted as strong colorimetric sensor for fluoride and cyanide ion detection and exhibited intramolecular charge transfer (ICT) band which showed significant red-shifts after addition of either the F¯ or CN¯ ion. One of the probes 2 showed selective colorimetric sensing for both cyanide and fluoride ions. In organic medium 2 showed selective color change with fluoride and cyanide, whereas in aqueous organic medium it showed a selective ratiometric response towards cyanide ion. The effect of anionic charge (on the donor moiety) on ICT has been discussed. Among the various donor moieties, the donor site having negative charges on them was found to disperse greater electron density on them. Figure 1. Molecular structures of the sensors Chapter 3 deals with chemodosimetric detection of cyanide ion in water using various oxidized bis-indole based compounds. Chapter 3A. A Chemodosimetric Probe based on a Conjugated and oxidized Bis¬ indolyl System for Selective Naked Eye Sensing of Cyanide ion in Water. The chapter 3A describes the design and synthesis of a new water-soluble bis-indolyl based probe, 5 which possesses two –COOH groups. This probe specifically reacted with the CN¯ ion in pure water at ambient temperature and produced a remarkable change in color from red to colorless. The mechanism of this process was investigated by NMR (1H, 13C and DEPT-135) spectroscopy, mass spectrometry and kinetic studies. The mechanism investigation showed that the cyanide ion reacts with the probe and removes the conjugation of the bis-indolyl moiety of the probe with that of the 4-substituted aromatic ring which renders the probe colorless. Taken together a plausible mechanism of the reaction was presented which showed to operate via a Michael type adduct formation under ambient conditions of pH and temperature in water. The probe gave a detection limit of 0.38 ppm for detection of cyanide ion in water. Figure 2. Molecular structure of the probe 5. Chapter 3B. Micelle Assisted ppb level Detection of Cyanide ion in Water by Chemodosimetry and Visual detection of the Endogenous Cyanide. The chapter 3B deals with the synthesis of a bis-indole based colorimetric probe 6. The probe showed selective detection of the cyanide ion in water at ppb level and a visible detection of endogenous cyanide from cassava (a major staple food in the developing world) by chemodosimetry. The cyanide ion binds with the probe 6 in a chemodosimetric fashion and follows pseudo first-order kinetics in water under appropriate conditions. It showed a highly sensitive detection of the cyanide ion in water with a detection limit of 0.33 ppm. The use of the micellar medium improved the detection limit drastically and a ppb level detection limit was achieved. The probe also showed the detection of the endogenously bound cyanide in cassava both visually and by spectrophotometer. Figure 3. Molecular structure of the probe 6. Chapter 3C. Ratiometric Cyanide ion probe in Water and for the detection of the Endogenously bound cyanide. Chapter 3C presents the synthesis of two new bis-indolyl (7 and 8) based probes for colorimetric detection of cyanide ion in pure water. Compound 8 showed a ratiometric response with cyanide in water and a visual detection of the endogenously bound cyanide ion in cassava. Using compound 8 the selective detection of the cyanide ion in water was achieved with a detection limit of ~ 17 ppb which is almost 13 times lower than the permitted limit as specified by EPA, United States. 7; R = H 8; R = -(OCH2CH2)3CH3 Figure 4. Molecular structures of the probes 1 and 2. Chapter 4 deals with the colorimetric and ratiometric detection of the Cu2+and Hg2+ions using different small synthetic molecular probes. Chapter 4A. Colorimetric Sensors for Ratiometric Detection of Copper and Mercury ions in Biological media and below ppm level in Water. The chapter 4A deals with the synthesis of two novel colorimetric probes (9, 10) using bispicolyl unit as the binding moiety and anthraimidazolediones and bis-indolyl system as a signaling sub-unit. Using the two sensors, Cu2+ion can be detected below the permitted limit (1.3 ppm) in both drinking water and at physiological pH 7.4. Sensor 9 can detect both Cu2+and Hg2+ in water with very low detection limit. It showed specific binding with Cu2+ at physiological pH 7.4 and in presence of serum albumins. Chemosensor 10 can be used for the specific detection of both Cu2+and Hg2in water as well as for the contamination in microorganisms. Figure 5. Molecular structure of the sensors 9 and 10. Chapter 4B. A New Molecular Probe for the Selective Sensing of Cu2+ and Hg2+ ions in Micellar Media and in Live ells.This chapter describes a synthesis of a novel bispicolyl based sensor 11 which can detect Cu2+ ion specifically in water medium and both Cu2+ and Hg2+ ions selectivelyin Brij-58 micellar medium. In micellar medium both the ions can be detected in the ppb level. Using fluorescence spectroscopy these two metal ions can be discriminated.The probe is also be useful for checking metal ion contamination in cellular samples. Figure 6. Molecular structure of the sensor 11. Chapter 4C. Rhodamine based Sensors for Cu2+ and Hg2+ ions in Water and in Biological media. The chapter 4C presents the synthesis and the sensing properties of the three positional isomers of the pyridine end of the rhodamine-pyridine compounds (12-14). The three isomers only differ in the position of nitrogen of the pyridine moiety. Sensor 12, which contains the pyridine nitrogen at the ortho-position showed selective sensing toward Cu2+ ion in both pure water and in buffered physiological media of pH 7.4. It gave a detection limit of ~13 ppb which is 100 times lesser than the EPA permitted limit. The other two sensors 13 and 14, which possessed the pyridine ends with the nitrogen atom at the meta- and the para- positions respectively showed the selective sensing of Hg2+ ion in water and did not show any interaction with the Cu2+ ion. Probes 2 and 3 showed ‘turn-on’ detection of Hg2+ ion both in the UV-vis and the fluorescence emission spectroscopy. Compound 2 and 3 showed a detection limit of ~ 9 and 4 ppb respectively. The NMR titration showed the change in color was due to the opening of the spirolactam ring of the rhodamine. The sensors can also be used for the detection of Cu2+ and Hg2+ ion in real life water samples and in the live cells. Figure 7. Molecular structure of the sensors 12, 13 and 14. Chapter 5. Ratiometric and ppb level Detection of Toxic Transition Metal ions using a Single Probe in Micellar media. This chapter describes the selective sensing of multiple ions using a single probe 15. The probe incorporates pyrene and pyridine as signaling and interacting moiety respectively. The sensor showed different responses towards different metal ions just by varying the medium of detection. In organic solvent (acetonitrile), the probe showed selective detection of Hg2+ ion. In water the fluorescence quenching was observed with three metal ions, Cu2+, Hg2+ and Ni2+. Further just by varying the surface charge of different micellar media, the probe showed selective interaction with Hg2+ ion in neutral micelles (Brij-58). However, in anionic micellar medium (SDS), the probe showed selective changes with both Cu2+ and Ni2+ in the UV-vis spectroscopy. The discrimination between these two ions was achieved by emission spectroscopy, where it showed selective quenching only with Cu2+. Thus using a single probe all the three metal ions Cu2+, Hg2+ and Ni2+ can be detected and discriminated just by varying the surface charge of the micellar medium. Figure 8. Molecular structure of the sensors 15. Chapter 6. Highly sensitive Rhodamine Based Dual Probes for the Visual detection of F¯ and Hg2+ ions in Water. This chapter deals with the design and synthesis of two new rhodamine based probes (16-17) which act as dual probes for the ppb level selective detection of Hg2+ and F¯ ions in water and at physiological pH 7.4. The two probes were synthesized by coupling tert-butyldiphenylsilyl (TBDPS) protected forms of 4-hydroxybenzaldehyde and 2, 4- dihydroxy benzaldehyde with rhodamine hydrazone. The F¯ ion detection is based on the desilylation of the probe, whereas the spirolactam ring opening leads to the detection of Hg2+ ion. The two probes gave turn-on detection of both Hg2+ and F¯ ion selectively in aqueous medium with the detection limit well below the EPA permitted limits. The probes showed detection of both the ions by dual mode with visibly different color and fluorescence under UV-lamp. The F¯ ion interacts with the silyl bond of probe and the cleavage results into yellow color whereas; the addition of Hg2+ ion to the probe solution opened the spirolactam ring and resulted into appearance of pink color. Figure 9. Molecular structure of the probes 16 and 17. (For structural formula pl see the abstract file)

Ion Sensors

Ion Detection

Molecular Sensors

Flouride Ions - Sensing

Cyanide Ions - Sensing

Supramolecular Ion Sensing Probes

Environmentally Relevant Ions

Cyanide Ions - Detection

Copper Ions - Detection

Mercury Ions - Detection

Molecular Probe

Anthraquinone

Oxidized-bis-indole

Pyrene

Rhodamine

Chemodosimetric Probe

Organic Chemistry

Étude du continuum exposition-effet cancérogène du benzo[a]pyrène

Moreau, Marjory

12 1900

Le benzo[a]pyrène (BaP) est un contaminant environnemental de la famille des hydrocarbures aromatiques polycycliques ayant été classé cancérogène chez l’humain. Cependant, la relation entre l’exposition et les effets est toujours mal documentée. L’objectif de cette thèse était de mieux documenter la relation quantitative entre l’exposition au BaP, l’évolution temporelle des biomarqueurs d’exposition et l’apparition d’altérations biologiques précoces, à partir d’études expérimentales chez le rat. Dans un premier temps, nous avons déterminé l’effet de 4 doses de BaP (0.4, 4, 10 et 40 µmol/kg) sur plusieurs biomarqueurs d’exposition (3- et 7-OHBaP, 4,5- et 7,8-diolBaP, BaPtétrol et 1,6-, 3,6- et 7,8-diones-BaP), les adduits à l’ADN et l’expression de gènes impliqués dans le métabolisme du BaP, la réparation de l’ADN et le stress oxydatif. Le BaP et ses métabolites ont été mesurés dans le sang, les tissus et les excrétas, 8 h et 24 h après l’administration intraveineuse de BaP par chromatographie liquide à ultra haute performance (UHPLC) couplée à la fluorescence. Les adduits à l’ADN ont été quantifiés dans les poumons par immuno-essai en chémoluminescence. L’expression des gènes dans les poumons a été réalisée par PCR quantitative en temps réel (qRT-PCR). Les résultats ont révélé une bonne relation dose-excrétion pour le 3-OHBaP, le 4,5-diolBaP et le 7,8-diolBaP et ils ont également renforcé l’utilité du 4,5-diolBaP comme potentiel biomarqueur du BaP en plus du 3-OHBaP. De plus, l’augmentation dose-dépendante de la formation des adduits et de l’expression de certains gènes impliqués dans le métabolisme et le stress oxydatif a suggéré l’intérêt de ces derniers comme biomarqueurs d’effet précoce. Dans un second temps, nous avons évaluer le profil cinétique des biomarqueurs en lien avec la modulation temporelle de la formation des adduits à l’ADN et de l’expression génique, en utilisant la dose de 40 µmol/kg de BaP telle qu’établie dans l’étude précédente, avec une série de mesures sur une durée de 72 h après l’injection intraveineuse de BaP. Il est apparu que le 3- et le 7-OHBaP ainsi que le 4,5- et le 7,8-diolBaP semblaient être de bons biomarqueurs d'exposition; les hydroxyBaP et diolBaP présentaient des cinétiques différentes, mais tous ces métabolites étaient corrélés de façon significative aux adduits BaPDE dans les poumons. L’expression de certains gènes et l’étude de leur profil cinétique a également permis de faire des liens avec la formation des adduits et de mieux comprendre le métabolisme du BaP. Après ces résultats, il semblait alors logique de s’intéresser à l’effet de la voie d’exposition dans un context d’exposition multiple de la population. Les données mesurées dans le sang et les excréta, après administration de 40 µmol/kg de BaP par voie intraveineuse, intratrachéale, orale, et cutanée, ont encore une fois montré l'intérêt de mesurer plusieurs métabolites pour l’évaluation de l’exposition en raison des différences en fonction de la voie d’administration du composé et des différences dans la cinétique de plusieurs biomarqueurs, notamment entre les hydroxy (3- et 7-OHBaP) et les diols-BaP (4,5- et 7,8-diolBaP). Les résultats suggèrent aussi que la mesure de ratios de concentrations de différents métabolites pourrait aider à indiquer le moment et la principale voie d’exposition. Ces données ont permis une meilleure compréhension du continuum entre l’exposition et les effets. / Benzo(a)pyrene (BaP) is a polycyclic aromatic hydrocarbon that has been classified as carcinogenic to humans. However, the relationship between exposure and effect is still poorly documented. The aim of this thesis was to document the quantitative relationship between exposure to BaP, the temporal evolution of biomarkers of exposure and the appearance of early biological alterations, by conducting experimental studies in rats. First, we determined the effect of four doses of BaP (0.4, 4, 10 and 40 µmol / kg) on several biomarkers of exposure (3- and 7-OHBaP, 4,5- and 7,8 -diolBaP, BaPtetrol and 1,6 -, 3,6 - and 7,8-dione-BaP), on DNA adducts and the expression of genes involved in the metabolism of BaP, DNA repair and oxidative stress. BaP and its metabolites were measured in blood, tissues and excreta, 8 h and 24 h after intravenous administration of BaP by ultra high performance liquid chromatography (UHPLC) coupled to fluorescence. The DNA adducts were quantified in lungs by chemiluminescence immunoassay. Gene expression in lungs was achieved by quantitative real time PCR (qRT-PCR). The results showed a good dose-excretion relationship for 3- OHBaP , 4,5- and 7,8- diolBaP and they also showed the usefulness of 4,5- diolBaP as a potential biomarker of BaP in addition to 3- OHBaP. Furthermore, the dose-dependent increase in the formation of adducts and the expression of certain genes involved in metabolism and oxidative stress highlighted the latter as potentially interesting biomarkers of effect. The following study was designed to evaluate the toxicokinetic profile of biomarkers of exposure related to the temporal modulation of the formation of DNA adducts and gene expression, using a dose of 40 µmol/kg BaP as set out in the previous study, but with regular measurements during the 72-h period following intravenous injection of BaP. It appeared that the 3 - and 7- OHBaP and 4,5 - and 7,8- diolBaP seemed to be good biomarkers of exposure; hydroxyBaPs and diolBaPs exhibited different kinetics but all the metabolites were significantly correlated with BaPDE adducts in the lungs. The expression of genes and the study of their kinetic profile also allowed to assess the relationship with the formation of adducts and better understand the metabolism of BaP. Based on these results, it seemed logical to focus on the effect of the route of exposure. The data measured in the blood and excreta after intravenous, intratracheal, oral, and cutaneous administration of 40 mmol/kg BaP have once again demonstrated the importance of measuring several metabolites due to kinetic differences depending on the route of administration of the compound and among biomarkers, in particular between OHBaPs (3 - and 7 - OHBaP) and diolBaPs (4,5 - and 7,8- diolBaP). Results also suggest that measurements of concentration ratios of different metabolites could help indicate the time and the main route of exposure. Overall, these data allowed a better understanding of the continuum between BaP exposure and early effects.

Benzo[a]pyrène

Métabolisme

Biomarqueurs

Toxicocinétique

Relation dose-effet

Voie d'exposition

Adduits à l'ADN

Expression génique

Benzo[a]pyrene

Metabolism

Biomarkers

Toxicokinetics

Dose-effect relationship

Route of exposure

DNA adducts

Gene expression

Impact des hydrocarbures aromatiques polycycliques sur le métabolisme lipidique et le transport du phosphore chez le champignon mycorhizien à arbuscules Rhizophagus irregularis / Polycyclic aromatic hydrocarbons impact on lipid metabolism and phosphorus transport in the arbuscular mycorrhizal fungus Rhizophagus irregularis

Calonne, Maryline

04 December 2012

Les hydrocarbures aromatiques polycyliques (HAPs) figurent parmi les polluants organiques persistants majeurs des sols pollués et présentent une toxicité avérée vis-à-vis de l'homme et des écosystèmes. Parmi les méthodes de remédiation des sols pollués par les HAPs, la phytoremédiation assistée par les champignons mycorhiziens à arbuscules (CMA), pourrait représenter une alternative innovante, écologique et économique. L'utilisation des mycorhizes comme outil de phytoremédiation des sols pollués présente plusieurs avantages dont une meilleure tolérance à la toxicité des HAPs, une meilleure nutrition hydrique et minérale ainsi qu'une meilleure dissipation des HAPs. De rares études ont décrit l'impact des HAPs sur le développement des CMA en lien avec une péroxydation lipidique et une perturbation des teneurs en lipides du CMA, mais ni les cibles d'action de ces polluants au niveau du métabolisme lipidique, ni le rôle de ces modifications dans sa tolérance aux HAPs et dans leur dissipation n'ont été étudiés. C'est pourquoi, le premier objectif de ce travail vise tout d'abord à comprendre l'impact des HAPs sur le métabolisme lipidique. Le radiomarquage par l'acétate [1-¹⁴C] a permis de montrer une perturbation de la biosynthèse des lipides membranaires du CMA extra-racinaire. D'autre part, nos résultats montrent que les HAPs affectent la nutrition phosphatée. Par ailleurs, la capacité des mycorhizes à dégrader et à bioaccumuler le benzo[a]pyrène est démontrée. Enfin, l'implication du métabolisme des lipides de réserve (les triacylglycérols) du mycélium extra-racinaire dans la régénération des membranes altérées, la lutte contre le stress oxydant induit par les HAPs et dans leur métabolisation/bioaccumulation est discutée. / Polycyclic aromatic hydrocarbons (PAHs) are among the major persistent organic pollutant frequently found in the polluted soils and are harmful for human health and its environment. To clean-up the PAHs polluted soils, phytoremediation assisted by arbuscular mycorrhizal fungi (AMF) could represent an innovative, ecological and cost-effective alternative. The use of mycorrhizas, as phytoremediation tool, has several advantages including increased tolerance to the pollutant toxicity, improved water and mineral nutrition as well as a better pollutant dissipation. Few studies have described the impact of PAHs on the AMF development related with lipid peroxidation and total lipid content disturbance. However, so far neither the target action of these pollutants on the metabolism, nor the role of these lipid changes in PAH tolerance and in their dissipation have been studied. Therefore, the present work aims firstly to improve our understanding of the PAHs impact on the CMA lipid metabolism. Thanks to radiolabeling experiments with [1-¹⁴C] acetate, our results showed a disruption of the membrane lipid biosynthesis pathways in the AMF extraradical mycelium, grown in the presence of PAHs. Secondly, it was highlighted that the PAHs affectef the phosphate nutrition. Finally, the mycorrhizas abilities to degrade and to bioaccumulate the benzo[a]pyrene, were pointed out. The involvement of extraradical mycelium storage lipid (triacyglycerols) metabolism in the membrane regeneration, the fight against the PAH induced-oxidative stress and the PAH metabolism/bioaccumulation is discussed.

Hydrocarbures Polycycliques Aromatiques

Champignon Micorhizien Arbusculaire

Phytoremédiation

Métabolisme lipidique

Nutrition phosphatée

Benzo[a]pyrène dégradation

Culture in vitro

Ecotoxicité

Polycyclic aromatic hydrocarbons

Arbuscular mycorrhizal fungus

Phytoremediation

Lipid metabolism

Phosphate nutrition

Benzo[a]pyrene degradation

In vitro cultures

Rhizophagus irregularis

Ecotoxicity

Oxidace benzo(a)pyrenu cytochromem P450 1A1 exprimovaným v prokaryotickém a eukaryotickém systému / Oxidation of benzo(a)pyrene by cytochrome P450 1A1 expressed in prokaryotic and eukaryotic systems

Kroftová, Natálie

January 2013

Benzo[a]pyrene (BaP) is a human carcinogen, which is metabolized by a variety of enzyms such as cytochrome P450 (CYP) and epoxide hydrolase. The aim of this work was to study BaP metabolism in vitro by the hepatic microsomal system of rats treated with CYP inducers and by human cytochrome P450 1A1 (CYP1A1) expressed in eukaryotic and prokaryotic systems. An eukaryotic expression system consisted of microsomes isolated from insect cells, whereas a prokaryotic expression system was formed by the membrane fragments of E. coli. In the case of recombinant human CYP1A1, we investigated the influence of cytochrome b5, NADPH:cytochrome P450 reductase (CPR) and epoxide hydrolase in BaP oxidation. Isolation and purification of rabbit hepatic CPR was another aim of this work. BaP metabolites were separated by HPLC. The results found in this work demostrate the fact that hepatic microsomal systems of rats treated with an inducer of CYP1A (Sudan I), an inducer of CYP2B (phenobarbital) and an inducer of CYP3A (PCN) exhibit higher efficiency of BaP oxidation than microsomes of control rats. BaP is oxidized by human CYP1A1 expressed in the eukaryotic system to six metabolites (BaP-9,10-dihydrodiol, BaP metabolite with unknown structure, BaP-7,8-dihydrodiol, BaP-1,6-dion, BaP-3,6-dion, BaP-3-ol), whereas by human...

A aplicabilidade de combinações seletivas de linhagens S. typhimurium na caracterização da mutagenicidade de amostras de ar / The applicability of selective combinations of strains S. typhimurium in the characterization of mutagenicity of airborne samples

Alves, Débora Kristina Magalhães

03 October 2011

O material particulado atmosferico é reconhecido como mutagênico. Embora vários compostos já tenham sido identificados nessa matriz, os mesmos não explicam o efeito observado na maioria dos bioensaios realizados. O ensaio de mutagenicidade Salmonella/microssoma tem sido amplamente utilizado para a avaliação de amostras atmosféricas o qual é muito sensível na detecção de vários tipos de mutágenos, pois é realizado com diferentes linhagens de Salmonella typhimurium na presença e ausência de ativação metabólica exógena. O principal objetivo deste trabalho foi verificar a aplicabilidade da utilização de combinações seletivas de linhagens S. typhimurium na caracterização da mutagenicidade de amostras de material particulado total de ar coletado em Limeira, uma cidade do interior do estado de São Paulo sob influência de intenso tráfego, emissões industriais e da agricultura, incluindo o plantio de cana de açúcar. Foram avaliados seis extratos orgânicos obtidos com diclorometano por ultrasonicação, utilizando o método Salmonella/microssoma em microssuspensão na presença e ausência de ativação metabólica (mistura S9) em experimentos de dose-resposta, com quantidade máxima de 50 µg de material orgânico extraído (MOE) por placa. Os pares de linhagens utilizados foram: YG1041/TA98, para verificar a presença de nitrocompostos, como 1- nitropireno e/ou aminas aromáticas; YG5161/TA1538, altamente sensivel aos hidrocarbonetos policíclicos aromáticos (HPA) não substituídos como o benzo[a]pireno (BaP); e YG7108/TA1535, para a indicação de agentes alquilantes. Os resultados indicaram que os compostos que podem melhor explicar os efeitos observados são os nitro e/ou aminas aromáticas e não os HPA não substituídos como o BaP. O par YG7108/TA1535 forneceu respostas negativas para todas as amostras. As combinações seletivas de linhagens S. typhimurium (YG1041/TA98 e YG5161/TA1538) mostraram-se eficientes na caracterização da mutagenicidade de amostras de ar coletadas na cidade de Limeira, podendo ser utilizadas como uma importante ferramenta de auxílio do ensaio Salmonella/microssoma em microssuspensão em estudos de análises quimicas direcionadas pelo efeito biológico (ADEB). As potências mutagênicas observadas com a linhagem TA98 para a cidade de Limeira foram similares aquelas verificadas na Região Metropolitana de São Paulo. A comparação das respostas de mutagenicidade observadas para as amostras analisadas com o perfil de compostos puros, encontrados na literatura, não forneceu candidatos que podem representar a mistura. Mais estudos de mutagenicidade com compostos puros utilizando os pares de linhagens propostos (TA98/YG1041 e TA1538/YG5161) e análises quimicas de extratos fracionados são necessários para verificar se esta abordagem pode ser útil em estudos de ADEB, e consequentemente na descoberta de novos poluentes atmosféricos. / The atmospheric particulate matter is recognized as mutagenic. Although several compounds have been identified in this matrix, they do not explain the observed effect in most bioassays that have been performed. The Salmonella/microsome assay has been widely used for the evaluation of atmospheric samples, The assay is very sensitive in the detection of various types of mutagens, because it is performed with different strains of Salmonella typhimurium in the presence and absence of exogenous metabolic activation. The main objective of this work was to verify the applicability of selective combination of strains in the characterization of mutagenicity of total airborne particulate matter collected in Limeira, a São Paulo State city in a site influenced by heavy traffic, industrial and agricultural emissions, including sugar cane plantations. We tested six extracts obtained with methylene chloride by ultrasonication using the Salmonella/microsome microsuspension protocol in the presence and absence of rat liver S9 in dose response experiments, using 50 µg of extractable organic matter (EOM) as a maximum dose per plate. The following pairs of strains were used: YG1041/TA98, to verify the presence of nitro-compounds, as 1-nitropyrene and/or aromatic amines; YG5161/TA1538, highly sensitive to non-substituted polycyclic aromatic hydrocarbons (PAHs) as benzo[a]pyrene (BaP); and YG7108/TA1535, for the indication of alkylating agents. The results indicated that the compounds that can better explain the observed effect are the nitro and/or aromatic amines and not nonsubstituted PAHs such as BaP. The pair YG7108/TA1535 provided negative responses for all the samples. Selective combinations of S. typhimurium strains (YG1041/TA98 and YG5161/TA1538) proved efficient in the characterization of mutagenicity of airborne samples collected in the city of Limeira and can be used as an important tool for the Salmonella/microsome microsuspension assay in effect directed chemical analysis (EDA) studies. The mutagenic potencies observed with TA98 strain for the city of Limeira were similar to those verified in the Metropolitan Region of São Paulo. The comparison of the observed mutagenicity responses for the samples analyzed with the profiles of pure compounds found in the literature did not provide any candidates that could alone represent the mixture. More mutagenicity studies with pure compounds using the proposed pair of strains (TA98/YG1041 and TA1538/YG5161) along with chemical analysis of fractioned extracts are needed to verify if this approach can be useful in EDA studies, and consequently in the discovery of new air priority pollutants.

Agentes alquilantes

Airborne particulate matter mutagenicity

Alkylating agents

Atmospheric pollution

Benzo[a]pireno

Benzo[a]pyrene

HPA

Mutagenicidade do ar

Nitro-compounds

Nitrocompostos

PAHs

Poluição atmosférica

YG1041

YG1041

YG5161

YG5161

YG7108

YG7108