Spectral, Electrochemical, and Solar Cell Studies of Peripheral Modified Carboxy Zinc Porphyrins

Alsaleh, Ajyal Zaki

05 1900

Six peripherally meso-modified Zn (II) porphyrin sensitizer dyes are designed and their J-V performance in dye sensitized solar cell (DSSC) evaluated. Electron-donating groups including phenothiazine, carbazole and pyrene are used to modify the porphyrin macrocycle at the meso-carbon position(s). To compare the effect of donor substitution on the performance of the cells in terms of short circuit current (Jsc), light harvesting efficiency (LHE) and power conversion efficiency (η), two sets of sensitizers with different degrees of substitution are synthesized. One set of dyes (mono-substituted) have one electron donor at trans-position to the acceptor, while the second set (tri-substituted) dyes have three of the same type electron donor groups at 5, 10 and 15 meso-carbon positions making all the six dyes push-pull type sensitizers incorporating 4'-carboxyphenyl as an electron-acceptor/anchor group. Different spectroscopic and electrochemical methods are used to study the photophysical and electrochemical properties of the dyes, while the photovoltaic performance of their cells under 1.5 A.M is studied using solar simulator. Meso-substitution of Zinc (II) porphyrin with these small donor molecules is shown to improve the light harvesting character of the Zinc (II) porphyrin macrocycle in the UV-Vis absorption while at same time improving its fluorescence quantum yield, excited-state life time and electron donating potential. All these factors combined make these meso-modified dyes better sensitizers with suitable Δ0 Δ0, and much improved power conversion efficiencies (PCE) compared to unsubstituted Zn (II) porphyrin. In particular, as a result of the peripheral modification, a doubling in efficiency in the mono- substituted series (RA-200-Zn; η=^M 4.2%, Jsc= -13.13 mA cm-2, Voc=0.54 ) and tripling in the tri-substituted series ( tri-phenothiazine Zn (II) Porphyrin; η= 7.3%, Jsc= -18.15 mA cm-2, Voc= 0.55 ) compared to unsubstituted Zn (II) porphyrin (η= 2.11%, Jsc= -5.7 mA cm-2, Voc= 0.53 V) has been accomplished.

Porphyrin

DSSC

peripheral modified zinc porphyrins

phenothiazine

carbazole

pyrene

secondary donor

solar cell

electrochemical study.

Chemistry, Analytical

Influence de la structure moléculaire sur la structure cristalline et électronique de molécules organiques conjuguées : une étude spectroscopique

Provencher, Françoise

January 2009

Mémoire numérisé par la Division de la gestion de documents et des archives de l'Université de Montréal.

Semi-conducteur organique

Pyrène

Spectroscopie

Diffractométrie de rayons X

Théorie de la fonctionnelle de densité

Mobilité

Organic semiconductor

Perylene

Pyrene

Spectroscopy

X-ray diffraction

Density functional theory

Mobility

Étude des interactions supramoléculaires par modélisation moléculaire

Dubois, Marc-André

11 1900

L’avancée des infrastructures informatiques a permis l’émergence de la modélisation moléculaire. À cet effet, une multitude de modèles mathématiques sont aujourd’hui disponibles pour simuler différents systèmes chimiques. À l’aide de la modélisation moléculaire, différents types d’interactions chimiques ont été observés. À partir des systèmes les plus simples permettant l’utilisation de modèles quantiques rigoureux, une série d’approximations a été considérée pour rendre envisageable la simulation de systèmes moléculaires de plus en plus complexes. En premier lieu, la théorie de la fonctionnelle de densité dépendante du temps a été utilisée pour simuler les énergies d’excitation de molécules photoactives. De manière similaire, la DFT indépendante du temps a permis la simulation du pont hydrogène intramoléculaire de structures analogues au 1,3,5-triazapentadiène et la rationalisation de la stabilité des états de transition. Par la suite, la dynamique moléculaire et la mécanique moléculaire ont permis de simuler les interactions d’un trimère d’acide cholique et d’un pyrène dans différents solvants. Cette même méthodologie a été utilisée pour simuler les interactions d’un rotaxane-parapluie à l’interface d’un système biphasique. Finalement, l’arrimage moléculaire et les fonctions de score ont été utilisés pour simuler les interactions intermoléculaires entre une protéine et des milliers de candidats moléculaires. Les résultats ont permis de mettre en place une stratégie de développement d’un nouvel inhibiteur enzymatique. / The evolution of computer systems has led to the emergence of molecular modeling. To this end, a variety of mathematical models are now available to simulate various chemical systems. Using molecular modeling, different types of chemical interactions were observed. From the simplest systems allowing the use of rigorous quantum models, a series of approximations were considered in order to make possible the simulation of increasingly complex molecular systems. First, time-dependent density fonctional theory has been used to simulate the excitation energies of photoactive molecules. Similarly, time-independent DFT has enabled the simulation of intramolecular hydrogen bonding in the 1,3,5-triazapentadiene system and the rationalization of the stability of the transition states. Subsequently, molecular dynamics and molecular mechanics were used to simulate the interactions of a trimer of cholic acid with a pyrene in different solvents. This methodology was then used to simulate the interactions of an umbrella-rotaxane at the interface of a biphasic system. Finally, molecular docking and the concept of scoring functions were used to simulate the intermolecular interactions between a protein molecule and thousands of potential ligands. The results were then used to create a strategy for the development of a new enzyme inhibitor.

Modélisation moléculaire

Molecular modeling

Dft

Gromacs

Gaff

Fitted

Gaussian

1,3,5-triazapentadiène

1,3,5-triazapentadiene

Rotaxane

Acide cholique

Cholic acid

Pyrène

Pyrene

Mechanismus enzymové aktivace karcinogenů a léčiv systémem cytochromů P450 / Mechanism of enzymatic activation of carcinogens and drugs by the system of cytochrome P450

Indra, Radek

January 2015

13 Abstract An environmental pollutant and a human carcinogen benzo[a]pyrene (BaP) is after its activation with cytochrome P450 (CYP) able to covalently bind to DNA. In the thesis, one of the target was to investigate an influence of individual components of mixed function monooxygenase (MFO) system on metabolism of benzo[a]pyrene and generation of adducts of activated BaP with DNA. The study was particularly focused to increase our knowledge on the effect of cyt b5 on metabolism of BaP by cytochrome P450 1A1 (CYP1A1) and its potential to serve as a donor of electrons during the reaction cycle of this cytochrome P450. The effect of cyt b5 on generation of BaP metabolites and adducts of BaP with DNA was investigated. In addition the effect of two different expression systems for cytochrome P450 1A1 (prokaryotic and eukaryotic) was also studied. The influence of cyt b5 on oxidation another xenobiotic compound, a plant alkaloid ellipticine that exhibit antitumor activities, was also investigated. Its pharmacological efficiency, as well as side effects depends on its metabolic activation by cytochrome P450. CYP3A4 is very important for ellipticine activation and therefore this enzyme was used in our experiments. Furthermore, a suitability of rat as a model organism mimicking the metabolic fate of BaP...

Úloha systému oxidas se smíšenou funkcí s cytochromem P450 v metabolismu léčiv a karcinogenů / The role of mixed function oxidases system with cytochrome P450 in metabolism of drugs and carcinogens

Mrízová, Iveta

January 2016

6 Abstract Ellipticine (5,11-dimethyl-6H-pyrido[4,3-b]carbazole), an alkaloid isolated from Apocynaceae plants, exhibits significant antitumor and HIV activity. This antitumor agent binds to DNA and forms covalent DNA adducts. Enzymes, which are involved in its enzymatic activation, are cytochromes P450 (CYP) and peroxidases. To elucidate the effect of ellipticine on the expression and enzymatic activity of the individual components of the microsomal mixed function oxidase system in different tissues, we used rat model. Simultaneously, the effect of ellipticine and its cytotoxicity on different tumor cell lines was also investigated. Another part of the presented work was targeted on preparation of anti-peptide antibody against orphan cytochrome P450 2S1, which is highly expressed in many human tumours of the epithelial origin, for its detection in these tissues. For better understanding how CYP2S1 can contribute to the metabolism of xenobiotics, the protein was prepared by heterologous expression in E. coli. Furher, its role in metabolism of an antitumor drug ellipticine, a carcinogenic environmental pollutant benzo[a]pyrene (BaP) and its derivate BaP-7,8-dihydrodiol was examined. Utilizing a mouse model, the impact of pulmonary inflammation on the metabolism of an environmental carcinogen was...

Prospecção de fungos derivados de esponjas marinhas na degradação/descoloração de poluentes ambientais. / Prospecting fungi derived from marine sponges on degradation/decolorization of environmental pollutants.

Vasconcelos, Maria Raphaella dos Santos

03 March 2015

Diversos estudos têm demonstrado o potencial de utilização de fungos filamentosos na degradação de poluentes ambientais, no entanto, ainda são escassos. O presente trabalho teve como objetivo avaliar o potencial biotecnológico de 174 fungos filamentosos isolados a partir de seis espécies de esponjas marinhas, os quais foram submetidos ao screening em meio sólido contendo corante RBBR e guaiacol; a ensaios em meio líquido, na presença dos corantes preto sulfuroso, índigo blue e reativo black 5, na avaliação da produção das enzimas lacase, manganês peroxidase (MnP) e lignina peroxidase (LiP), utilizando siringaldazina, álcool veratrílico e o vermelho de fenol como substratos enzimáticos, respectivamente; a ensaios de degradação de pireno e benzo[a]pireno; a delineamentos experimentais; e à análise de metabólitos formado na degradação. O fungo selecionado Chaunopycnis alba CBMAI 1346 apresentou 94,54% de degradação em 35 de salinidade, evidenciando o potencial biotecnológico deste fungo em processos de degradação de poluentes ambientais em condições salinas. / Several studies have demonstrated the potential use of filamentous fungi in the degradation of environmental pollutants, however, are still scarce. This study aimed to evaluate the biotechnological potential of 174 filamentous fungi isolated from six species of marine sponges, which were subjected to screening on solid medium containing RBBR dye and guaiacol; the tests in liquid medium in the presence of sulfur black, indigo blue and reactive black 5 dyes, the evaluation of the production of enzymes laccase, manganese peroxidase (MnP) and lignin peroxidase (LiP), using syringaldazin, veratryl alcohol and phenol red as enzyme substrates, respectively; tested for degradation of pyrene and benzo [a] pyrene; the experimental designs; and analysis of metabolites formed in the degradation. The fungus selected Chaunopycnis alba CBMAI 1346 showed 94.54% of pyrene degradation in 35 salinity, highlighting the biotechnological potential of this fungus in the process of degradation of environmental pollutants in saline conditions.

Degradação de pireno

Delineamento experimental

Environmental pollutants

Enzimas ligninolíticas

Experimental design

Fungos filamentosos marinhos

Ligninolytic enzymes

Marine filamentous fungi

Poluentes ambientais

Pyrene degradation

Estudo sobre efeitos do naftaleno e benzo(a) pireno em Trachinotus carolinus (Perciformes, Carangidae) utilizando biomarcadores citogenotóxicos, histopatológicos e bioquímicos / Study of the effects of naphthalene and benzo(a) pyrene in Trachinotus carolinus (Perciformes, Carangidae) using citogenotoxic, histopahological and biochemical biomarkers.

Santos, Thaís da Cruz Alves dos

11 December 2009

A exposição dos peixes a poluentes provoca danos nos organismos que podem ser identificados precocemente através de respostas biológicas. O presente estudo visou avaliar os efeitos do naftaleno e benzo(a)pireno em pampos da espécie Trachinotus carolinus. Foram avaliados os efeitos citogenotóxicos, histopatológicos e bioquímicos após exposições às concentrações de 0,9 M; 2,7 M e 8,1 M de NAP e BAP por períodos de 12, 24, 48 e 96 horas. O NAP causa quebra no DNA de eritrócitos de pampos em concentrações de 8,1 M e a partir de 12 horas de exposição. O BAP revelou ser genotóxico a partir da menor concentração e de 24 horas. A mutagenicidade de ambos os poluentes, avaliada através da indução de formação de micronúcleos e anormalidades nucleares eritrocitárias, também ocorre a partir de curtos períodos de exposição e freqüências de MN e ANE estão relacionadas com a duração da exposição. O período de exposição aos HPAs foi determinante na intensidade e severidade das lesões observadas nos tecidos dos peixes. A especificidade de CYP1A, observada segundo análise imunohistoquímica, ocorreu de maneira dose-dependente e evidenciada principalmente nos maiores períodos experimentais. Os poluentes orgânicos, nas condições experimentais utilizadas, não provocaram alteração significativa na atividade das enzimas catalase e GST da espécie. Os biomarcadores, citogenotóxicos e histopatológicos utilizados neste estudo, demonstraram ser ferramentas eficientes para aferir a toxicidade, genotoxicidade e mutagenicidade de NAP e BAP como também sua relação dose-resposta na espécie T. carolinus. / Effects of exposure of fish to pollutants can be identified through stress responses. The present study aims to evaluate the effects of naphthalene and benzo(a)pyrene in Florida pompanos, Trachinotus carolinus. Evidences from citogenotoxical, histopathological and biochemical studies showed that alterations caused by exposures to 0.9 M, 2.7 M and 8.1 M of NAP and BAP occurred within 12 to 96 hours. NAP at 8.1 M induced erythrocyte DNA strand breaks in pompanos since early periods of exposure. Genotoxic effects of BAP at the lowest concentration were documented soon after 24 hours of exposure. Mutagenotoxicity of both pollutants, as seen by the induction of MN and ENA, was revealed since early periods and their frequencies are related to the duration of exposure. Exposures to these PAHs, for longer periods, resulted in increased frequency and severity of lesions observed in fish tissues. Specificity of CYP1A, observed through immunohistochemical analyses, was related to the dose of the pollutants and mainly at longer periods of exposure. These organic pollutants, under the experimental conditions, did not interfere with the activity of liver catalase and GST of the species. The citogenotoxic and histopathologic biomarkers used in this study proved to be efficient tools to ascertain the toxicity, genotoxicity and mutagenesis of NAP and BAP, as well as their dose related response, in the species T. carolinus.

benzo(a)pireno

benzo(a)pyrene

catalase

catalase

CYP1A

CYP1A

genotoxicidade

genotoxicity

glutathione-Stransferase

glutationa- S-transferase

histopathology

histopatologia

naftaleno

naphthalene

Trachinotus carolinus

Trachinotus carolinus

Impact d'un polluant environnemental, le benzo[a]pyrène, sur le microbiote intestinal en modèle murin / Impact of an environmental pollutant, benzo[a]pyrene, on gut microbiota in a mouse model

Ribière, Céline

10 November 2015

Le microbiote intestinal joue un rôle primordial dans l’homéostasie du tractus gastro-intestinal, et plus généralement dans celle de son hôte. A ce titre, de nombreuses pathologies humaines sont associées à une dysbiose de ce microbiote intestinal, tels que les cancers colorectaux, les maladies inflammatoires chroniques de l’intestin (MICI), les troubles du métabolisme ou encore les maladies auto-immunes. Ces pathologies ont une étiologie mal connue et multifactorielle dans laquelle l’environnement semble jouer un rôle clé. Des études récentes ont ainsi mis en évidence un lien entre la pollution atmosphérique et des pathologies humaines telles que les MICI. Parmi les différentes substances polluantes répertoriées, le benzo[a]pyrène (BaP), qui fait partie de la famille des hydrocarbures aromatiques polycycliques, est soumis à une surveillance accrue en raison de ses effets toxiques sur la santé humaine. De par ses propriétés pro-inflammatoires et mutagènes, le BaP pourrait modifier la composition du microbiote intestinal, induisant alors à une réponse inflammatoire et à une altération des fonctions intestinales. Dans le cadre de ce travail de thèse, une surexposition orale et chronique au BaP en modèle murin a conduit à une inflammation modérée principalement au niveau de la muqueuse iléale. L’analyse des amplicons du gène codant l’ARNr 16S a mis en évidence des modifications de la composition et de l’abondance relative des communautés bactériennes fécales et associées à la muqueuse intestinale avec notamment une augmentation et une diminution des taxa pro et anti-inflammatoires respectivement. Ainsi, dans des conditions de susceptibilité génétique et/ou en association avec d’autres facteurs environnementaux, l’exposition à ce polluant pourrait déclencher et/ou accélérer le développement de pathologies inflammatoires. L’identification des potentialités métaboliques des différentes populations bactériennes caractérisées précédemment et impactées par le polluant revêt donc un caractère primordial. La reconstruction de génomes directement à partir de l’écosystème microbien peut permettre d’établir ce lien entre structure et fonction. C’est également dans ce contexte, qu’une approche innovante de capture de gènes en solution a été développée. En effet, cette technique d’enrichissement permet de reconstruire de larges portions génomiques pouvant relier un biomarqueur phylogénétique à des gènes fonctionnels, y compris pour des populations bactériennes présentes en très faible abondance dans l’écosystème. / Gut microbiota plays a primordial role in gastro-intestinal tract and host homeostasis. Numerous pathologies are associated with a gut microbiota dysbioses, such as colorectal cancer, inflammatory bowel diseases (IBD), metabolism disorders or autoimmune diseases. The physiopathology of these diseases has multifactorial aetiology in which environmental factors seem to play a crucial role. Recent evidences have highlighted a link between air pollution and human diseases such as IBD. Among the different pollutant listed, benzo[a]pyrene (BaP), which belong to the family of polycyclic aromatic hydrocarbons, is subject to an increase surveillance due to its toxic effects on human health. By its pro-inflammatory and mutagenic proprieties, BaP could lead to modifications of gut microbiota composition, then inducing an inflammatory response and an alteration of intestinal functions. As part of this thesis, BaP subchronic oral exposure in murine model has led to a moderate inflammation mostly in ileal mucosa. The analysis of ARNr 16S amplicons has highlighted composition and abundance alterations of faecal and mucosa-associated microbiota, especially with increase and decrease of pro and anti- inflammatory taxa respectively. Thus, under conditions of genetic susceptibility and/or in association with other environmental factors, exposure to this pollutant could trigger and/or accelerate the development of inflammatory pathologies. Metabolic potential identification of different bacterial populations previously characterized and affected by the pollutant appears therefore primordial. Genome reconstruction directly from microbial ecosystem could allow to establish this link between structure and function. Also in this context, an innovative approach of gene capture in solution was developed. Indeed, this enrichment technique allows to reconstruct large genomic portions that could link phylogenetic biomarker and functional genes, including for bacterial populations present at very low abundance in the ecosystem.

Microbiote intestinal

Benzo[a]pyrène

Métagènomique

Inflammation intestinale

Capture de gènes en solution

Gut microbiota

Benzo[a]pyrene

Metagenomics

Gene capture in solution

Intestinal inflammation

664.02

Estudo sobre efeitos do naftaleno e benzo(a) pireno em Trachinotus carolinus (Perciformes, Carangidae) utilizando biomarcadores citogenotóxicos, histopatológicos e bioquímicos / Study of the effects of naphthalene and benzo(a) pyrene in Trachinotus carolinus (Perciformes, Carangidae) using citogenotoxic, histopahological and biochemical biomarkers.

Thaís da Cruz Alves dos Santos

11 December 2009

A exposição dos peixes a poluentes provoca danos nos organismos que podem ser identificados precocemente através de respostas biológicas. O presente estudo visou avaliar os efeitos do naftaleno e benzo(a)pireno em pampos da espécie Trachinotus carolinus. Foram avaliados os efeitos citogenotóxicos, histopatológicos e bioquímicos após exposições às concentrações de 0,9 M; 2,7 M e 8,1 M de NAP e BAP por períodos de 12, 24, 48 e 96 horas. O NAP causa quebra no DNA de eritrócitos de pampos em concentrações de 8,1 M e a partir de 12 horas de exposição. O BAP revelou ser genotóxico a partir da menor concentração e de 24 horas. A mutagenicidade de ambos os poluentes, avaliada através da indução de formação de micronúcleos e anormalidades nucleares eritrocitárias, também ocorre a partir de curtos períodos de exposição e freqüências de MN e ANE estão relacionadas com a duração da exposição. O período de exposição aos HPAs foi determinante na intensidade e severidade das lesões observadas nos tecidos dos peixes. A especificidade de CYP1A, observada segundo análise imunohistoquímica, ocorreu de maneira dose-dependente e evidenciada principalmente nos maiores períodos experimentais. Os poluentes orgânicos, nas condições experimentais utilizadas, não provocaram alteração significativa na atividade das enzimas catalase e GST da espécie. Os biomarcadores, citogenotóxicos e histopatológicos utilizados neste estudo, demonstraram ser ferramentas eficientes para aferir a toxicidade, genotoxicidade e mutagenicidade de NAP e BAP como também sua relação dose-resposta na espécie T. carolinus. / Effects of exposure of fish to pollutants can be identified through stress responses. The present study aims to evaluate the effects of naphthalene and benzo(a)pyrene in Florida pompanos, Trachinotus carolinus. Evidences from citogenotoxical, histopathological and biochemical studies showed that alterations caused by exposures to 0.9 M, 2.7 M and 8.1 M of NAP and BAP occurred within 12 to 96 hours. NAP at 8.1 M induced erythrocyte DNA strand breaks in pompanos since early periods of exposure. Genotoxic effects of BAP at the lowest concentration were documented soon after 24 hours of exposure. Mutagenotoxicity of both pollutants, as seen by the induction of MN and ENA, was revealed since early periods and their frequencies are related to the duration of exposure. Exposures to these PAHs, for longer periods, resulted in increased frequency and severity of lesions observed in fish tissues. Specificity of CYP1A, observed through immunohistochemical analyses, was related to the dose of the pollutants and mainly at longer periods of exposure. These organic pollutants, under the experimental conditions, did not interfere with the activity of liver catalase and GST of the species. The citogenotoxic and histopathologic biomarkers used in this study proved to be efficient tools to ascertain the toxicity, genotoxicity and mutagenesis of NAP and BAP, as well as their dose related response, in the species T. carolinus.

benzo(a)pireno

catalase

CYP1A

genotoxicidade

glutationa- S-transferase

histopatologia

naftaleno

Trachinotus carolinus

benzo(a)pyrene

catalase

CYP1A

genotoxicity

glutathione-Stransferase

histopathology

naphthalene

Trachinotus carolinus

Metabolismus von alkylierten polyzyklischen aromatischen Kohlenwasserstoffen : Einfluss der Struktur auf benzylische Hydroxylierung und Sulfonierung in vitro und Modulation des Metabolismus in vivo / Metabolism of alcylated polycyclic aromatic hydrocarbons : influence of the structure on benzylic hydroxylation and sulfonation in vitro and modulation of the metabolism in vivo

Batke, Monika

January 2008

Die Toxizität und Kanzerogenität von rein aromatischen polyzyklischen aromatischen Kohlenwasserstoffen (PAK) ist seit Jahrzehnten bekannt und umfassend erforscht. Die alkylierten PAK (alkPAK) besitzen jedoch aufgrund ihrer Alkylgruppe eine weitere Möglichkeit zur Bioaktivierung und müssen daher gesondert betrachtet werden. Die Alkylgruppe wird zunächst hydroxyliert, anschließend zur Säure oxidiert oder direkt konjugiert. Entstehen hierbei instabile benzylische Sulfokonjugate, so können diese DNA-Addukte bilden und zu Mutationen führen. In Hinblick auf die Bioaktivierung von alkPAK galt es daher zu klären welchen Einfluss die Struktur auf die benzylische Hydroxylierung hat und welche humanen Formen der löslichen Sulfotransferasen besonders an der Umsetzung der alkPAK-Derivate beteiligt sind. Die Untersuchung der Albuminbindung von Schwefelsäureestern sowie ihre Aufnahme in Nierenzellen sollten Aufschluss hinsichtlich möglicher Transportvorgänge geben. Für die in-vivo-Situation wurde weiterhin die Modulation des Metabolismus ausgewählter benzylischer Alkohole durch verschiedene Nahrungsmittelbestandteile, Arzneimittel und Fremdstoffe an Ratten untersucht. Als Biomarker wurden benzylische Carbonsäuren im Urin und die entsprechenden Mercaptursäuren in Urin und Fäzes betrachtet. Zunächst wurde anhand von Inkubationen mit Rattenlebermikrosomen festgestellt, dass insbesondere größere Ringsystemen wie etwa alkylierte Benzo[a]pyrene im Gegensatz zu Methylpyrenen in wesentlich geringerem Umfang zum benzylischen Alkohol umgesetzt werden. Dies wurde auch in Untersuchungen mit humanen Lebermikrosomen bestätigt. Untersuchungen an einzelnen humanen Cytochromen P450 zeigten, dass insbesondere die durch PAK induzierbaren Formen hCYP1A1 und 1B1 hohe Umsatzraten aufwiesen. Die hepatisch exprimierten Formen hCYP1A2 und 3A4 waren jedoch auch zur Bildung der benzylischen Alkohole in der Lage. Für die anschließende Sulfonierung der benzylischen Alkohole wurden besonders hohe Aktivitäten mit den humanen Sulfotransferasen hSULT1A1, 1A2, 1C2 und 1E1 festgestellt. Aufgrund der Enzymexpression und der guten Durchblutung, die eine gute Substratversorgung ermöglicht, ist die Leber als Hauptort der benzylischen Hydroxylierung und Sulfonierung anzusehen. Ergebnisse unserer Arbeitsgruppe zeigen jedoch, dass nach 1-Hydroxymethylpyren-Applikation bei Ratten die Niere die höchste Zahl an DNA-Addukten aufweist. Wegen der Fokussierung der Sulfonierung auf die Leber ist die systemische Verteilung der Schwefelsäureester die einzig plausible Erklärung. So wurde im Rahmen dieser Arbeit eine hochaffine Bindungsstelle für 2-Sulfoxymethylpyren an Albumin beschrieben und die Aufnahme von benzylischen Sulfaten durch die humanen organischen Anionentransporter hOAT1, 3 und 4 in Nierenzellen in vitro gezeigt. Für die in-vivo-Situation wurde der Einfluss von Ethanol, 4-Methylpyrazol, Pentachlorphenol, Quercetin und Disulfiram untersucht. Neben der durch die Detoxifizierung mittels Alkoholdehydrogenase und Aldehyddehydrogenase entstandenen benzylischen Carbonsäure kann als Biomarker die entsprechende Mercaptursäure herangezogen werden. Sie ist ein indirekter Nachweis für die reaktiven und toxischen benzylischen Sulfate der alkPAK. Für die beiden im Tierversuch eingesetzten benzylischen Alkohole (1-Hydroxymethylpyren und 1-Hydroxymethyl-8-methylpyren) konnte sie in Urin und Fäzes nachgewiesen werden. Es wurde jedoch ein deutlicher Unterschied in der gebildeten Menge sowie der Verteilung zwischen Urin und Fäzes für die beiden Mercaptursäuren festgestellt. Hierfür sind wahrscheinlich Unterschiede im Transport der benzylischen Schwefelsäureester sowie der Spezifität der an der Mercaptursäurebildung beteiligten Enzyme verantwortlich. In diesem Zusammenhang konnte gezeigt werden, dass der humane organische Anionentransporter hOAT1 1,8-Dimethylpyrenmercaptursäure nicht und der hOAT3 nur mit niedrigen Umsatzraten transportiert. Bei den Modulatoren zeigte die Gabe der kompetitiven Alkoholdehydrogenase-Hemmstoffe Ethanol und 4-Methylpyrazol die Bedeutung der Alkoholdehydrogenasen für die Entgiftung der benzylischen Alkohole: Die Oxidation zur entsprechenden Carbonsäure war reduziert und die Bildung der Mercaptursäure erhöht. Eine Hemmung der Toxifizierung vermittelt durch Sulfotransferase-Inhibitoren konnte nur für Pentachlorphenol beim Metabolismus des 1-Hydroxymethylpyrens beobachtet werden. Gleichzeitig erwies sich Pentachlorphenol als kompetitiver Alkoholdehydrogenase-Inhibitor, da eine signifikant geminderte Carbonsäureausscheidung zu beobachten war. Bei 1-Hydroxymethyl-8-methylpyren traten diese Effekte nicht auf. Die unterschiedlichen bzw. unterschiedlich starken Effekte der Modulatoren beim Metabolismus der verschiedenen benzylischen Alkohole bestätigen die Beobachtungen aus den in-vitro-Untersuchungen, dass unterschiedliche Enzym- und Transporteraffinitäten und –aktivitäten vorliegen. / The toxicity and carcinogenicity of purely aromatic polycyclic aromatic hydrocarbons (PAH) is known since decades and has been thoroughly investigated. Compared to the purely aromatic PAH the alcylated PAH (alcPAH) can additionally be biologically activated because of their alcyl group. The alcyl group is hydroxylated and subsequently oxidised to the corresponding acid or conjugated. If unstable benzylic sulfoconjugates arrise from this bioactivation DNA adducts may be formed and could induce mutations. Concering the bioactivation of alcPAH this work should help to get to know which influence the structure has on the benzylic hydroxylation and it should be clarified which forms of human soluble sulfotransferases catalyse the sulfonation of benzylic alcohols. Furthermore the albumin binding of sulfuric acid esters and the uptake into kidney cells by human organic anion transporters in vitro have been analysed to get inside into transport processes. For the in vivo situation the modulation of enzyme activities by food compounds, pharmaceuticals and xenobiotics is of interest. As biomarkers the respective benzylic carboxylic acid and mercapturic acid were measured in urine only and feces. By the use of incubations with rat liver microsomes it turned out that larger ring systems were benzylically hydroxylated to a remarkable less extent then alcyl pyrenes. This observation was also made for human liver microsomes. In vitro experiments addressing the activity of single human cytochromes P450 revealed that PAH inducable forms hCYP1A1 and 1B1 had highest hydroxylation rates, but also the hepatically expressed forms hCYP3A4 and CYP1A2 catalysed the benzylic hydroxylation. The subsequently following sulfonation of the benzylic alcohols was found to be catalysed with high formation rates by human sulfotransferase hSULT1A1, 1A2, 1C2 and 1E1. Due to the enzyme expression and the high blood circluation ensuring the substrate supply it can be assumed that liver is the main organ for benzylic hydroxylation and sulfonation. Nevertheless results from our group showed that after 1-hydroxy methyl pyrene exposure, rats had higher levels of DNA adducts in kidneys than in liver. Thus, it has to be assumed that the sulfuric acid esters are systemically distributed. In the course of this work a high affinity albumin binding site for 2-sulfoxy methyl pyrene was identified and the uptake of sulfuric acid esters mediated by human organic anion tranporter 1, 3 and 4 to kidneys cells in vitro was shown. For the further estimation of the in vivo bioactivation of alcPAH the modulation of enzyme activities by ethanol, 4-methylpyrazole, quercetin, pentachlorophenol and disulfiram was explored. The carboxylic acids formed via alcohol dehydrogenase and aldehyde dehydrogenase were used as biomarkers as well as the respective mercapturic acids. The occurence of the mercapturic acids is an indirect proof for the reactive and toxic benzylic sulfo conjugates. In the urine and fecal samples of rats treated with either 1-hydroxymethyl pyrene or 1-hydroxymethyl 8-methyl pyrene the corresponding mercapturic acids of the sulfuric acid esters were found. Even though the absolute amount excreted and the distribution in urine and fecal samples were quite different. This observation may be explained by differences in transport of the sulfuric acid esters as well as by different specificities of the enzymes responsable for mercapturic acid formation. Additionally it was shown that the human organic anion transporter 1 does not transport 1,8-dimethyl pyrenyl mercapturic acid and the human organic anion transporter 3 only with very little turnover. Whereas 1-methyl pyrenyl mercapturic acid was well transported by both of these proteins. With regard to the modulation the concurrent application of ethanol or 4-methyl pyrazole to rats revealed the important role of alcohol dehydrogenase for the detoxification of benzylic alcohols: The oxidation leading to the corresponding carboxylic acid was remarkably reduced and the excretion of the mercapturic acid via urine and feces was enhanced. In order to observe an inhibition of sulfotransferases pentachlorophenol and quercetine were concurrently applied to rats. An inhibitory effect by the means of an reduced excretion of mercapturic acid was only observed for pentachlorophenol in animals treated with 1-hydroxymethyl pyrene. In addition it turned out, that pentachlorophenol was a potent competitive alcohol dehydrogenase inhibitor as the renal excretion of the corresponding carboxylic acid was remarkably reduced. For 1-hydroxymethyl 8-methyl pyrene this modulation was not observed. These differences in effects and strenght of effects may be ascribed to different enzymatic and transport affinities and activities which have already been observed in in vitro experiments.

benzylischer Alkohol

benzylisches Sulfat

1-Hydroxymethylpyren

Mercaptursäure

benzylic alcohol

benzylic sulfate

1-hydroxy methyl pyrene

mercapturic acid

Life sciences