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hidroxilação de alcano por sistemas suportados em sílica e estudos exploratórios da oxidação do contaminante emergente triclosanFalcão, Nathália Kellyne Silva Marinho 05 February 2016 (has links)
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Previous issue date: 2016-02-05 / Coordenação de Aperfeiçoamento de Pessoal de Nível Superior - CAPES / Conselho Nacional de Pesquisa e Desenvolvimento Científico e Tecnológico - CNPq / In this work, cytochrome P450-inspired biomimetic oxidation systems were
developed for aliphatic C–H bond activation and triclosan oxidation. Heterogenization of
Mn(III) N-pyridylporphyrin derivatives onto silica gel resulted in three groups of catalysts.
Immobilization of Mn(III) N-pyridylporphyrins (MnT-X-PyPCl, X = 2, 3, 4) on chloropropylfunctionalized
silica gel (Sil-Cl) yielded the first group of catalysts, Sil-Cl/MnT-X-PyPCl.
The second group was prepared by in situ methylation of Sil-Cl/MnT-X-PyPCl materials
resulting in the Sil-Cl/MnT-X-PyPCl/MeOTs materials. Finally the third group of catalysts
were prepared via electrostatic immobilization of Mn(III) N-methylpyridiniumporphyrins
(MnTM-X-PyPCl5, X = 2, 3, 4) onto unfunctionalized silica gel to yield SiO2/MnTM-XPyPCl5
(X = 2, 3, 4). These materials were studied as catalysts for iodosylbenzene-based
hydroxylation reactions of the model substrate cyclohexane. The heterogenized catalysts
proved to be more efficient, selective and oxidatively stable than the corresponding
homogeneous systems for cyclohexane oxidation. No significant loss in catalytic efficiency
was observed upon recycling of these materials. The increase in Mn(III)/Mn(II) reduction
potentials associated with the alkylation of the pyridyl moieties of Sil-Cl/MnT-XPyPCl/MeOTs
(X = 2, 3, 4) materials did not result in significant changes in catalytic
efficiency as compared with the non-methylated starting materials Sil-Cl/MnT-X-PyPCl (X =
2, 3, 4). The PhIO-oxidation of the emerging contaminant triclosan under homogenous
conditions was carried out using Mn porphyrins as biomimetic catalysts for P450-based
xenobiotic degradation. The second generation catalyst Mn(III) meso-tetrakis(2,6-
dichlorophenyl)porphyrin chloride, MnTDCPPCl, was more efficient and oxidatively stable
than its first generation analogue Mn(III) meso-tetraphenylporphyrin chloride, which was
considerably destroyed during the reactions. GC-FID, HPLC-DAD and LC-MS/MS analyses
were used to confirm the formation of two products already identified as in vivo metabolites
of triclosan: 4-chlorocatechol and 2,4-dichlorophenol. LC-MS/MS spectra of reation mixture
indicated the formation of four additional triclosan degradation products (m/z 270, 323, 448,
and 483), whose structural identity and biological relevance have yet to be confirmed. / Neste trabalho foram desenvolvidos modelos biomiméticos dos citocromos P450
pela heterogeneização das N-piridilporfirinas de Mn(III) em sílica-gel, resultando em três
classes de catalisadores. A primeira classe descreve a imobilização das N-piridilporfirinas de
Mn(III) (MnT-X-PyPCl, X = 2, 3, 4) em sílica-gel funcionalizada com o grupo cloropropila
(Sil-Cl), a segunda classe envolve a metilação in situ dos materiais obtidos anteriormente e a
terceira classe corresponde ao ancoramento eletrostático das N-metilpiridinioporfirinas de
Mn(III) (MnTM-X-PyPCl5, X = 2, 3, 4) em sílica-gel in natura, sendo denominados como
Sil-Cl/MnT-X-PyPCl, Sil-Cl/MnT-X-PyPCl/MeOTs e SiO2/MnTM-X-PyPCl5 (X = 2, 3, 4),
respectivamente. Estes materiais foram empregados em reações de hidroxilação do substrato
modelo cicloexano por iodosilbenzeno (PhIO). Os catalisadores heterogeneizados mostram-se
mais eficientes, seletivos e resistentes à destruição catalítica do que os sistemas em fase
homogênea, além de não serem observadas perdas significativas na eficiência catalítica após
reúsos desses materiais. O aumento do potencial de redução Mn(III)/Mn(II) associado ao
aumento do grau de alquilação nos catalisadores Sil-Cl/MnT-X-PyPCl/MeOTs (X = 2, 3, 4)
não levaram a alterações significativas na eficiência catalítica desses materiais em
comparação aos materiais de partida Sil-Cl/MnT-X-PyPCl (X = 2, 3, 4). A investigação da
atividade catalítica das Mn-porfirinas de primeira e segunda geração, cloreto de mesotetrafenilporfirinatomanganês
(III) (MnTPPCl) e cloreto de meso-tetraquis(2,6-
diclorofenil)porfirinatomanganês (III) (MnTDCPPCl), na oxidação do contaminante
emergente triclosan revelou que estes modelos biomiméticos podem efetuar a degradação
deste xenobiótico. A MnTDCPPCl mostrou-se mais eficiente do que seu análogo de primeira
geração MnTPPCl, que foi mais degradado durante as reações. Pelas técnicas de GC-FID,
HPLC-DAD e LC-MS/MS foi possível confirmar a formação de dois produtos já
identificados na literatura como metabólitos in vivo: 4-clorocatecol e 2,4-diclorofenol. Ainda
por LC/MS-MS pode-se identificar a formação de mais quatro produtos de degradação do
triclosan ainda não definidos (m/z 270, 323, 448 e 483)
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Evaluation of the Developmental Effects and Bioaccumulation Potential of Triclosan and Triclocarban Using the South African Clawed Frog, Xenopus LaevisKing, Marie Kumsher 12 1900 (has links)
Triclosan (TCS) and triclocarban (TCC) are antimicrobials found in U.S. surface waters. This dissertation assessed the effects of TCS and TCC on early development and investigated their potential to bioaccumulate using Xenopus laevis as a model. The effects of TCS on metamorphosis were also investigated. For 0-week tadpoles, LC50 values for TCS and TCC were 0.87 mg/L and 4.22 mg/L, respectively, and both compounds caused a significant stunting of growth. For 4-week tadpoles, the LC50 values for TCS and TCC were 0.22 mg/L and 0.066 mg/L; and for 8-week tadpoles, the LC50 values were 0.46 mg/L and 0.13 mg/L. Both compounds accumulated in Xenopus. For TCS, wet weight bioaccumulation factors (BAFs) for 0-, 4- and 8-week old tadpoles were 23.6x, 1350x and 143x, respectively. Lipid weight BAFs were 83.5x, 19792x and 8548x. For TCC, wet weight BAFs for 0-, 4- and 8-week old tadpoles were 23.4x, 1156x and 1310x. Lipid weight BAFs were 101x, 8639x and 20942x. For the time-to-metamorphosis study, TCS showed an increase in weight and snout-vent length in all treatments. Exposed tadpoles metamorphosed approximately 10 days sooner than control tadpoles. For the hind limb study, although there was no difference in weight, snout-vent length, or hind limb length, the highest treatment was more developed compared to the control. There were no differences in tail resorption rates between the treatments and controls. At relevant concentrations, neither TCS nor TCC were lethal to Xenopus prior to metamorphosis. Exposure to relatively high doses of both compounds resulted in stunted growth, which would most likely not be evident at lower concentrations. TCS and TCC accumulated in Xenopus, indicating that the compound has the potential to bioaccumulate through trophic levels. Although TCS may increase the rate of metamorphosis in terms of developmental stage, it did not disrupt thyroid function and metamorphosis in regards to limb development and tail resorption.
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Bioaccumulation of Triclocarban, Triclosan, and Methyl-triclosan in a North Texas Wastewater Treatment Plant Receiving Stream and Effects of Triclosan on Algal Lipid Synthesis.Coogan, Melinda Ann 08 1900 (has links)
Triclosan (TCS) and triclocarban (TCC), widely used antimicrobial agents found in numerous consumer products, are incompletely removed by wastewater treatment plant (WWTP) processing. Methyl-triclosan (M-TCS) is a more lipophilic metabolite of its parent compound, TCS. The focus of this study was to quantify bioaccumulation factors (BAFs) for TCS, M-TCS, and TCC in Pecan creek, the receiving stream for the City of Denton, Texas WWTP by using field samples mostly composed of the alga Cladophora sp. and the caged snail Helisoma trivolvis as test species. Additionally, TCS effects on E. coli and Arabidopsis have been shown to reduce fatty acid biosynthesis and total lipid content by inhibiting the trans-2 enoyl- ACP reductase. The lipid synthesis pathway effects of TCS on field samples of Cladophora spp. were also investigated in this study by using [2-14C]acetate radiolabeling procedures. Preliminary results indicate high TCS concentrations are toxic to lipid biosynthesis and reduce [2-14C]acetate incorporation into total lipids. These results have led to the concern that chronic exposure of algae in receiving streams to environmentally relevant TCS concentrations might affect their nutrient value. If consumer growth is limited, trophic cascade strength may be affected and serve to limit population growth and reproduction of herbivores in these riparian systems.
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Avaliação do risco ambiental de sedimentos contaminados com triclosan, ibuprofeno e 17α-etinilestradiol empregando invertebrados marinhos bentônicos / Environmental risk assessment of sediments contaminated with triclosan, ibuprofeno and 17α-ethynylestradiol employing benthic marine invertebratesPusceddu, Fabio Hermes 16 August 2016 (has links)
Os protocolos de Avaliação de Risco Ambiental (ERA) de Fármacos e Produtos de Cuidados Pessoais (FPCP) recomendam o uso de ensaios ecotoxicológicos tradicionais (por exemplo algas, bactérias, invertebrados, peixes) e a avaliação de efeitos em um único nível de organização biológica para a determinação dos efeitos potenciais dos FPCP à biota. Considerando que efeitos em nível de sub-indivíduo pode afetar igualmente a aptidão ecológica de organismos marinhos, e que os mesmos estão cronicamente expostos aos FPCP, o objetivo do presente estudo foi avaliar o risco ambiental de triclosan (TCS), ibuprofeno (IBU) e 17α-etinilestradiol (EE2) em sedimentos marinhos utilizando respostas de efeitos sub-individuais e populacionais. Por meio do HPLC-ESI-MS/MS, as concentrações ambientais de TCS e IBU foram quantificadas em sedimentos marinhos coletados no entorno do emissário submarino de esgoto de Santos (Baía de Santos, São Paulo - Brasil) com 15,14 e 49,0 ng.g-1, respectivamente, enquanto o EE2 não foi detectado (<33 ng.g-1). Uma bateria de ensaios de toxicidade crônica (desenvolvimento embriolarval) com ouriços-do-mar (Lytechinus variegatus) e bivalves (Perna perna) foi realizada (efeito a nível de indivíduo) após exposição a sedimentos contaminados com os FPCP. Além disso, foram analisados alguns biomarcadores de Fase I (etoxiresorufina O-deetilase EROD e dibenzilfluoresceína DBF), de Fase II (glutationa S-transferase GST) do metabolismo, do sistema antioxidante (glutationa peroxidase GPx), de neurotoxicidade (colinesterase ChE), de estresse oxidativo (peroxidação lipídica LPO e danos em DNA) e de citotoxicidade que foram selecionados para avaliação das respostas a nível de sub-indivíduo em mexilhões Mytella charruana. Todos os compostos analisados apresentaram efeitos sobre o desenvolvimento embriolarval de L. variegatus e P. perna em concentrações ambientalmente relevantes. Em nível de sub-indivíuo foi possível observar que o TCS causou efeitos cito-genotóxicos (diminuição da estabilidade da membrana lisossomal, peroxidação lipídica e danos em DNA) e neurotóxicos. O IBU causou efeitos citotóxicos e neurotóxicos, enquanto o EE2 apresentou efeitos citotóxicos e danos em DNA. Nesse sentido, mesmo em baixas concentrações os FPCP são potencialmente capazes de alterar os mecanismos de manutenção da homeostase. Os dados químicos e ecotoxicológicos foram integrados e os quocientes de risco estimados para TCS, IBU e EE2 apresentaram valores superiores a 1,0, indicando alto risco ambiental destes compostos em sedimentos marinhos. Estes são os primeiros dados de avaliação de risco ambiental de FPCP em sedimentos de uma zona costeira brasileira. Os resultados sugerem que a ERA de fármacos e produtos de cuidados pessoais deve contemplar, além dos ensaios de toxicidade tradicionais o uso de biomarcadores como indicadores dos primeiros sinais de efeitos e, assim, estabelecer uma avaliação de risco mais efetiva que assegure a proteção e funcionamento dos ecossistemas aquáticos. / The guidelines for the Environmental Risk Assessment (ERA) of pharmaceuticals and personal care products (PPCPs) usually recommend the use of standard ecotoxicity assays (e.g. algae, bacteria, invertebrate, fish) and the assessment of endpoints at individual level for the evaluation of potential effects of PPCPs on biota. Considering that effects at sub-individual level can also affect the ecological fitness of marine organisms, and that marine organisms are chronically exposed to PPCPs, the aim of the current study was to evaluate the environmental risk of triclosan (TCS), ibuprofen (IBU) and 17α-ethynylestradiol (EE2) in marine sediments using sub-individual and population endpoints. Using LC-ESI-MS/MS, the environmental levels of TCS and IBU were quantified in marine sediments from the vicinities of the Santos submarine sewage outfall (Bay of Santos, São Paulo, Brazil) at 15.14 and 49.0 ng g-1, respectively, while EE2 was not detected (<33ng g-1). A battery (n=3) of chronic bioassays (embryo-larval development) with a sea urchin (Lytechinus variegatus) and a bivalve (Perna perna) were performed at populational level after exposure to spiked sediment. Phases I (ethoxyresorufin O-deethylase EROD and dibenzylfluorescein dealkylase DBF) and II (glutathione S-transferase GST) of the metabolism, antioxidant system (glutathione peroxidase GPX), neurotoxicity (cholinesterase ChE), oxidative effects (lipid peroxidation LPO and DNA damage strand breaks) and cytotoxicity were selected to evaluate the sublethal responses in the bivalve Mytella charruana. These compounds showed developmental effects on L. variegatus and P. perna at environmentally relevant concentrations. At sub-individual level TCS induced cyto-genotoxic (reduction on stability of lysosome membrane, lipid peroxidation and DNA damage) and neurotoxic effects. IBU caused cyto and neurotoxic effect, while EE2 caused cytotoxic and DNA damage. Chemical and ecotoxicological data were integrated and the quotient risk estimated for TCS, IBU and EE2 showed values higher than 1.0, indicating high environmental risks of these compounds in sediments. These are the first data of risk assessment of pharmaceuticals and personal care products in sediments of a Brazilian coastal zone. The results suggests that the ERA of pharmaceuticals and personal care products must include, in addition to the standard toxicity tests, the use of biomarkers as indicators of the early warning signs and thus provide a more effective risk assessment to security the protection and functioning of aquatic ecosystems.
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Avaliação do risco ambiental de sedimentos contaminados com triclosan, ibuprofeno e 17α-etinilestradiol empregando invertebrados marinhos bentônicos / Environmental risk assessment of sediments contaminated with triclosan, ibuprofeno and 17α-ethynylestradiol employing benthic marine invertebratesFabio Hermes Pusceddu 16 August 2016 (has links)
Os protocolos de Avaliação de Risco Ambiental (ERA) de Fármacos e Produtos de Cuidados Pessoais (FPCP) recomendam o uso de ensaios ecotoxicológicos tradicionais (por exemplo algas, bactérias, invertebrados, peixes) e a avaliação de efeitos em um único nível de organização biológica para a determinação dos efeitos potenciais dos FPCP à biota. Considerando que efeitos em nível de sub-indivíduo pode afetar igualmente a aptidão ecológica de organismos marinhos, e que os mesmos estão cronicamente expostos aos FPCP, o objetivo do presente estudo foi avaliar o risco ambiental de triclosan (TCS), ibuprofeno (IBU) e 17α-etinilestradiol (EE2) em sedimentos marinhos utilizando respostas de efeitos sub-individuais e populacionais. Por meio do HPLC-ESI-MS/MS, as concentrações ambientais de TCS e IBU foram quantificadas em sedimentos marinhos coletados no entorno do emissário submarino de esgoto de Santos (Baía de Santos, São Paulo - Brasil) com 15,14 e 49,0 ng.g-1, respectivamente, enquanto o EE2 não foi detectado (<33 ng.g-1). Uma bateria de ensaios de toxicidade crônica (desenvolvimento embriolarval) com ouriços-do-mar (Lytechinus variegatus) e bivalves (Perna perna) foi realizada (efeito a nível de indivíduo) após exposição a sedimentos contaminados com os FPCP. Além disso, foram analisados alguns biomarcadores de Fase I (etoxiresorufina O-deetilase EROD e dibenzilfluoresceína DBF), de Fase II (glutationa S-transferase GST) do metabolismo, do sistema antioxidante (glutationa peroxidase GPx), de neurotoxicidade (colinesterase ChE), de estresse oxidativo (peroxidação lipídica LPO e danos em DNA) e de citotoxicidade que foram selecionados para avaliação das respostas a nível de sub-indivíduo em mexilhões Mytella charruana. Todos os compostos analisados apresentaram efeitos sobre o desenvolvimento embriolarval de L. variegatus e P. perna em concentrações ambientalmente relevantes. Em nível de sub-indivíuo foi possível observar que o TCS causou efeitos cito-genotóxicos (diminuição da estabilidade da membrana lisossomal, peroxidação lipídica e danos em DNA) e neurotóxicos. O IBU causou efeitos citotóxicos e neurotóxicos, enquanto o EE2 apresentou efeitos citotóxicos e danos em DNA. Nesse sentido, mesmo em baixas concentrações os FPCP são potencialmente capazes de alterar os mecanismos de manutenção da homeostase. Os dados químicos e ecotoxicológicos foram integrados e os quocientes de risco estimados para TCS, IBU e EE2 apresentaram valores superiores a 1,0, indicando alto risco ambiental destes compostos em sedimentos marinhos. Estes são os primeiros dados de avaliação de risco ambiental de FPCP em sedimentos de uma zona costeira brasileira. Os resultados sugerem que a ERA de fármacos e produtos de cuidados pessoais deve contemplar, além dos ensaios de toxicidade tradicionais o uso de biomarcadores como indicadores dos primeiros sinais de efeitos e, assim, estabelecer uma avaliação de risco mais efetiva que assegure a proteção e funcionamento dos ecossistemas aquáticos. / The guidelines for the Environmental Risk Assessment (ERA) of pharmaceuticals and personal care products (PPCPs) usually recommend the use of standard ecotoxicity assays (e.g. algae, bacteria, invertebrate, fish) and the assessment of endpoints at individual level for the evaluation of potential effects of PPCPs on biota. Considering that effects at sub-individual level can also affect the ecological fitness of marine organisms, and that marine organisms are chronically exposed to PPCPs, the aim of the current study was to evaluate the environmental risk of triclosan (TCS), ibuprofen (IBU) and 17α-ethynylestradiol (EE2) in marine sediments using sub-individual and population endpoints. Using LC-ESI-MS/MS, the environmental levels of TCS and IBU were quantified in marine sediments from the vicinities of the Santos submarine sewage outfall (Bay of Santos, São Paulo, Brazil) at 15.14 and 49.0 ng g-1, respectively, while EE2 was not detected (<33ng g-1). A battery (n=3) of chronic bioassays (embryo-larval development) with a sea urchin (Lytechinus variegatus) and a bivalve (Perna perna) were performed at populational level after exposure to spiked sediment. Phases I (ethoxyresorufin O-deethylase EROD and dibenzylfluorescein dealkylase DBF) and II (glutathione S-transferase GST) of the metabolism, antioxidant system (glutathione peroxidase GPX), neurotoxicity (cholinesterase ChE), oxidative effects (lipid peroxidation LPO and DNA damage strand breaks) and cytotoxicity were selected to evaluate the sublethal responses in the bivalve Mytella charruana. These compounds showed developmental effects on L. variegatus and P. perna at environmentally relevant concentrations. At sub-individual level TCS induced cyto-genotoxic (reduction on stability of lysosome membrane, lipid peroxidation and DNA damage) and neurotoxic effects. IBU caused cyto and neurotoxic effect, while EE2 caused cytotoxic and DNA damage. Chemical and ecotoxicological data were integrated and the quotient risk estimated for TCS, IBU and EE2 showed values higher than 1.0, indicating high environmental risks of these compounds in sediments. These are the first data of risk assessment of pharmaceuticals and personal care products in sediments of a Brazilian coastal zone. The results suggests that the ERA of pharmaceuticals and personal care products must include, in addition to the standard toxicity tests, the use of biomarkers as indicators of the early warning signs and thus provide a more effective risk assessment to security the protection and functioning of aquatic ecosystems.
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The influence of environmental contaminants on time to pregnancyVelez Gomez, Maria del Pilar 08 1900 (has links)
Cette thèse porte sur l’évaluation de l’impact de certains composés environnementaux sur la fécondité féminine, tel que mesuré par le délai de conception (« time to pregnancy » en anglais, ou TTP). Cette recherche a été réalisée dans le cadre de l’Étude mère-enfant sur les composés chimiques de l’environnement (MIREC), une cohorte de grossesse de 2001 femmes recrutées durant le premier trimestre dans dix villes canadiennes de 2008 à 2011. Les données des questionnaires et les échantillons biologiques ont servi à évaluer l’effet de deux groupes de composés : les persistants [composés perfluorés – perfluorooctanesulfonate (PFOS), perfluorooctanoate (PFOA) et perfluorohexane sulfonate (PFHxS)] et les non persistants (bisphénol A, triclosan et phtalates). Cette thèse comprend également une analyse du potentiel du ratio index-annulaire (2D:4D) comme mesure de sensibilité endocrinienne. À ce jour, des mesures anthropométriques ont été collectées sur environ 800 mères-enfants dans le cadre de l’Étude mère-enfant sur les composés chimiques de l’environnement : biomonitoring et neurodéveloppement à la petite enfance (MIREC CD Plus), un suivi de la cohorte MIREC portant sur la croissance et le développement des enfants jusqu’à 5 ans.
Sur l’ensemble, les résultats de cette thèse permettent d’étoffer les preuves concernant les effets adverses potentiels de plusieurs contaminants environnementaux sur la fécondité féminine, telle que mesurée par le TTP. Dans le premier article, nous avons montré une association entre les PFOA et les PFHxS et une baisse de fécondité, ce que d’autres recherches avaient déjà révélé. Dans le deuxième article, nous avons évalué l’effet du triclosan sur le TTP, ce qui n’avait jamais été examiné, pour montrer un délai plus élevé chez les femmes du quartile supérieur d’exposition. De plus, nos résultats sont en accord avec ceux de la seule étude ayant évalué l’effet du Bisphénol A sur la fécondité féminine, qui n’avait pas détecté d’effet. Finalement, nos données semblent indiquer une association entre l’exposition des femmes aux phtalates et un TTP plus court, mais ces résultats ne sont pas statistiquement significatifs.
En ce qui a trait au potentiel du ratio index-annuaire (2D:4D) pour mesurer la sensibilité endocrinienne chez les femmes, nos données ne permettent pas d’établir une association entre ce ratio et le TTP. Pour ce qui est des enfants, nous n’avons pas trouvé d’effet adverse entre le tabagisme de la mère durant la grossesse et leur ratio 2D:4D. Par conséquent, nos données ne semblent pas justifier l’utilisation du ratio 2D:4D pour mesurer la sensibilité endocrinienne en lien avec le potentiel reproducteur (basé sur le TTP) ou l’exposition des enfants au tabac durant le premier trimestre de grossesse. / In this thesis, we aimed to evaluate the impact of selected environmental compounds on female fecundity as measured by time to pregnancy (TTP). This research was conducted in the framework of the Maternal-Infant Research on Environmental Chemicals (MIREC) study, a pregnancy cohort of 2001 women recruited during the first trimester of pregnancy in ten cities across Canada between 2008 and 2011. Questionnaire data and biological samples were analyzed to assess the effect of two groups of compounds: persistent [perfluorinated compounds - perfluorooctane sulfonate (PFOS), perfluorooctanoate (PFOA), and perfluorohexane sulfonate (PFHxS)-] and nonpersistent chemicals (Bisphenol A, Triclosan, and phthalates). In addition, this thesis aimed to examine the potential of the second to fourth finger digit ratio (2D:4D) as a sensitive-endocrine endpoint. To this end, anthropometric measurements were obtained in about 800 children and their mothers during the Early Childhood Biomonitoring and Neurodevelopment Study (MIREC-CD Plus), a MIREC follow-up conducted to measure growth and development up to age five.
Overall, the results of this thesis have contributed to the evidence regarding the potential adverse effect of several environmental contaminants (ECs) on female fecundity as measured by TTP. In the first article, we found that PFOA and PFHxS were associated with diminished fecundity, supporting previous evidence that suggested a similar effect. In the second article, we assessed for the first time the effect of Triclosan on TTP, presenting evidence of delayed fecundity at the highest quartile of exposure. In addition, our findings agreed with those of the only study that has assessed the effect of Bisphenol A on female fecundity, and which showed no effect. Finally, we found some indication that female exposure to phthalates might be associated with a shorter TTP, although this finding did not reach statistical significance.
With regard to the potential of the digit length ratio (2D:4D) as an endocrine-sensitive endpoint in women, our data do not support a strong association between 2D:4D and TTP. In children, we did not find an adverse impact of maternal smoking during pregnancy on children’s 2D:4D. Thus, our data do not support evidence to suggest that 2D:4D could be used as a potential reproductive endocrine-sensitive endpoint in women as measured by TTP, and in their offspring as measured by exposure to maternal smoking during the first trimester of pregnancy.
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Detection and speciation of silver in freshwater containing triclosan and thyroid hormone T3Collins, Patricia Lillian 05 August 2010 (has links)
In freshwater, there is more opportunity for silver (Ag) to interact with organic ligands than in seawater. Triclosan is an antibiotic agent which resembles thyroid hormone T3 and is finding its way into aquatic systems. Preliminary toxicology studies for the frogSCOPE program suggest that triclosan and nanosilver (nanoAg), also used as an antibiotic agent, may be chemically interacting, as they seem to synergistically increase the endocrine-disrupting abilities already observed independently in each chemical. Ag speciation methods can be used to determine if triclosan or thyroid hormone T3 are interacting with Ag ion (Ag+), which gets released over time by nanoAg. To fully utilize Ag speciation methods, however, total Ag in the sample must also be independently analyzed. Here we investigated a new total Ag analysis using cadmium sulfide quantum dots (CdS QDs) as fluorescence probes in solution. This method promises results in a fraction of the time of the established competitive ligand equilibration-solvent extraction (CLE-SE) technique utilizing PDC- and DDC- to bind Ag and bring it out of solution. Following this investigation were a series of experiments using CLE-SE for total Ag and Ag speciation in well water used to house bullfrog tadpoles in frogSCOPE Ag exposure studies. CLE-SE for Ag speciation was also applied to well water samples containing the two levels of nanoAg or Ag+ used in frogSCOPE Ag exposures, and used in ligand competition experiments to examine the potential of triclosan or T3 to act as strong Ag-binding ligands, as compared to glutathione and EDTA, two known Ag-binding ligands. The results of the latter experiments could be used to determine if either of these could be forming complexes with Ag which increase or decrease their delivery to amphibian cells.
The fluorometric method using CdS QDs showed no ideal analytical response to nanomolar Ag+, even when commercial QDs were modified and used, so it could not be applied to our samples. Using CLE-SE for total Ag, the well water used as a base for toxicity studies in frogSCOPE contained Ag below the method detection limit of 5 pM. Using the speciation variation of the CLE-SE method, no evidence of naturally-occurring ligands which could produce extractable (hydrophobic) or non-extractable (hydrophilic) Ag complexes was found in this well water. EDTA and glutathione responded as model Ag-binding ligands to form non-extractable hydrophilic Ag complexes in fresh water. T3 behaved like these model ligands, while triclosan enhanced the extractability of Ag in the presence of certain concentrations of the added ligand, DDC-. In another set of experiments, coordination of Ag by triclosan or T3 was not detectable within that analytical window. These results suggest that ionic Ag released over time by nanoAg may be binding T3 and preventing it from reaching its receptor, but confirming the interaction of triclosan and Ag+ will require additional experiments using different analytical windows.
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Structure-fonction des transporteurs transmembranaires de la famille MmpL3 de Mycobacterium tuberculosisYazidi, Amira 04 1900 (has links)
L’émergence de la résistance à une multitude d’agents antimicrobiens chez des bactéries pathogènes est considérée comme une menace majeure pour la santé publique (2). Ces souches sont reconnues comme des organismes multirésistants aux médicaments ou MDR (multidrug-resistant) (4). Les recherches progressent chez les bactéries, à Gram positif, à Gram négatif et acido-alcoolo-résistantes au vu de l’ampleur de la menace pour la santé publique, ces bactéries multirésistantes sont devenues les cibles potentielles à cette fin de recherche. De ce fait, les objectifs de la présente étude ont consisté en la caractérisation structurale et fonctionnelle de différents transporteurs transmembranaires de la famille des RND (Resistance-Nodulation-Division) encore énigmatiques, à savoir: le MmpL3 chez Mycobacterium tuberculosis (Mtb) via l’étude de son orthologue CmpL1 chez Corynebacterium glutamicum (Cgl) et le TriAxBC chez Pseudomonas aeruginosa (P. aeruginosa).
Ainsi, comme première démarche présentée dans le chapitre 2, la structure du transporteur MmpL3 Mtb (un transporteur d'acides mycoliques – sous forme de tréhalose de monomycolates (ou TMM) - essentiel pour la viabilité de Mtb) (5) et celle de son orthologue CmpL1 Cgl ont été prédites via le serveur I-TASSER (6-8). Ces structures ont été validées par la suite en comparant à la carte électronique générée pour CmpL1 (18 Å) par des analyses de microscopie électronique en transmission à coloration négative (TEM). La caractérisation du transporteur CmpL1 purifié par chromatographie à exclusion stérique a confirmé le complexe trimérique de taille avoisinant les 315 KDa (incluant la couronne du détergent) en accord avec des analyses par gel SDS-PAGE. Des études génétiques et biochimiques en collaboration ont d’autre part identifié des résidus engagés dans le transport du TMM chez MmpL3 ainsi que d’autres impliqués dans la résistance à des inhibiteurs ciblant ce transporteur. L’ensemble de ces données a mis en évidence la localisation des résidus essentiels au transport et à la résistance au niveau du canal central du modèle trimérique de MmpL3. La région de MmpL3 activant le transport par force protomotrice a été localisée au niveau d’une cavité centrale qui est une caractéristique intrinsèque de la famille des RND. Les cartes électroniques de faible résolution déjà obtenues pour la protéine CmpL1 font de ce projet une des directions futures du laboratoire.
Dans le chapitre 3, nous illustrons le deuxième aspect du présent projet qui repose sur l’extension de l’étude du potentiel thérapeutique du ciblage du transporteur transmembranaire MmpL3 chez les différentes souches de Mycobacterium. Nos collaborateurs ont effectué une analyse biochimique de l’effet thérapeutique des inhibiteurs les plus prometteurs du transporteur MmpL3 Mtb sur certaines souches mycobactériennes non-tuberculeuses (NTB) multi-résistantes. Basés sur nos modélisations structurales comparatives obtenues par I-TASSER (6-8), nous avons pu complémenter les informations biochimiques en soulignant les similitudes et les différences de structure entre les souches TB et NTB ainsi que leurs impacts fonctionnels. Ce chapitre met en évidence l’intérêt du ciblage thérapeutique de MmpL3 chez les espèces NTB. En effet, l’efficacité de certains inhibiteurs de MmpL3 Mtb sélectionnés sur le traitement des infections pulmonaires NTB promet de pouvoir généraliser cette nouvelle voie de traitement pour d’autres souches multi-résistantes NTB voire à contribuer à remédier à la problématique de la résistance aux antibiotiques et décomplexifier le traitement actuel.
D’autres études en collaboration entreprenant les mêmes approches d’études structurales ont été réalisées pour les transporteurs tripartites TriAxBC (P. aeruginosa), des pompes à efflux appartenant à la famille des RND. Le but du chapitre 4 était de générer une structure du complexe et de déchiffrer son mode d’assemblage et d’expulsion des antibiotiques vers le milieu externe. Un modèle à structure quaternaire de TriAxBC a été prédit par I-TASSER (6-8) et validé contre sa carte électronique à 4.3 Å générée en Cryo-EM. Le complexe TriAxBC a été également caractérisé par filtration sur gel confirmant une taille approximative de 620 KDa et sa composition en trimère par visualisation sur gel SDS-PAGE.
En conclusion, nous avons pu à travers cette étude combiner différentes approches biochimiques, génétiques et structurales soutenant la nécessité d’une approche multidisciplinaire pour l’approfondissement de la compréhension de la structure et du mode de fonctionnement des transporteurs RND. Ces derniers demeurent toujours énigmatiques; toutefois, nos avancées et d’autres à venir permettront la génération de nouveaux médicaments spécifiques traitant les bactéries multirésistantes. / The emergence of resistance to a multitude of antimicrobial agents in pathogenic bacteria is considered a major threat to public health (2). These strains are recognized as multidrug resistant organisms (MDR) (4). Research is progressing in Gram positive, Gram positive high GC and Gram negative bacteria, and given the scale of the public health threat, these MDR have become potential targets for this research. The objectives of the present study consist of the structural and functional characterization of various transmembrane transporters of the still enigmatic RND (Resistance-Nodulation-Division) family, namely: MmpL3 in Mycobacterium tuberculosis (Mtb) via the study of its ortholog CmpL1 in Corynebacterium glutamicum (Cgl)
and TriAxBC in Pseudomonas aeruginosa (P. aeruginosa).
The first component of this project, presented in Chapter 2, studies the structure of the transporter MmpL3 Mtb (a TMM mycolic acid transporter essential for the viability of Mtb (5) and that of its CmpL1 Cgl orthologue, which have been predicted via the I- Tasser Pack (6-8). These structures were subsequently validated by comparing to the electronic map generated for CmpL1 (18 Å) by negative staining transmission electron microscopy (TEM). Characterization of the purified CmpL1 transporter by size exclusion chromatography confirmed the trimeric complex size around 315 KDa (including the detergent crown) corroborated by SDS-PAGE gel analyses. Collaborative genetic and biochemical studies have also identified residues involved in the transport of TMM in MmpL3 as well as those residues conferring antibiotic resistance. This data highlighted the location of the essential residues of transport and resistance in the central channel of the trimeric Mmpl3 model. The MmpL3 region activating proto-motor transport has been located at a central cavity, which is an intrinsic feature of the RND family. The low-resolution electronic maps obtained for the protein CmpL1 may serve as the foundation of future studies.
In Chapter 3 we explore the therapeutic potential of the targeting of the transmembrane transporter MmpL3 in different Mycobacterium strains. Our collaborators studied the therapeutic effect of the most promising inhibitors of the MmpL3 Mtb transporter on certain multi-resistant mycobacterial non-tuberculous (NTB) strains. Based on our comparative structural modeling obtained by I-TASSER (6-8), we supplemented the biochemical data by highlighting the structural similarities and differences between the TB and NTB strains as well as their functional impacts. This chapter highlights the interest of direct or indirect targeting of MmpL3 in NTB species. Indeed, the efficacy of certain selected MmpL3 Mtb inhibitors on the treatment of NTB pulmonary infection have potential as generalizable treatment options for other NTB multi-resistant strains, or even to help address the problem of resistance to antibiotics
and simplify current combination approaches.
Other collaborative studies undertaking the same structural approaches were carried out for TriAxBC tripartite carriers (P. aeruginosa), efflux pumps belonging to the RND family. The purpose of Chapter 4 was to generate a structure of the complex and decipher its mode of assembly and expulsion of antibiotics from the intracellular environment. A quaternary structure model of TriAxBC was predicted by I-TASSER (6-8) and validated against its 4.3 Å electronic map generated by Cryo-EM. The TriAxBC complex was also characterized by gel filtration confirming an approximate size of 620 KDa and its trimer composition by SDS-PAGE.
In conclusion, this study is combining different biochemical, genetic and structural approaches to highlight the need for a multidisciplinary approach to characterizing the structure function of RND transporters. The latter remain enigmatic; however, our contribution and the progress of others will allow the generation of new specific drugs targeting multiresistant strains.
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Concentrations of Triclosan in the City of Denton Wastewater Treatment Plant, Pecan Creek, and the Influent and Effluent of an Experimental Constructed WetlandWaltman, Elise Lyn 08 1900 (has links)
The Pecan Creek Waste Reclamation Plant in Denton, Texas, an activated sludge WWTP, was sampled monthly for ten months to determine seasonal and site variation in concentrations of triclosan (5-chloro-2-(2,4-dichlorophenoxy)phenol), an antibacterial additive. SNK separation after the highly significant ANOVA on ranked data were: summer = fall > winter = spring and influent > downstream = effluent = wetland inflow > wetland outflow (a=0.05). After the plant converted to ultraviolet disinfection, measurements were made before and after the UV basin to determine if significant amounts of triclosan were converted to dioxin. Percent loss at each of the treatment steps was determined. Concentrations of triclosan in the downstream site were below the published NOEC for the most sensitive species.
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Monitoring, characterizing, and preventing microbial degradation of ignitable liquids on soilTurner, Dee Ann January 2013 (has links)
Indiana University-Purdue University Indianapolis (IUPUI) / Organic-rich substrates such as soil provide an excellent carbon source for bacteria. However, hydrocarbons such as those found in various ignitable liquids can also serve as a source of carbon to support bacterial growth. This is problematic for fire debris analysis as samples may be stored at room temperature for extended periods before they are analyzed due to case backlog. As a result, selective loss of key components due to bacterial metabolism can make identifying and classifying ignitable liquid residues by their chemical composition and boiling point range very difficult. The ultimate goal of this project is to preserve ignitable liquid residues against microbial degradation as efficiently and quickly as possible. Field and laboratory studies were conducted to monitor microbial degradation of gasoline and other ignitable liquids in soil samples. In addition to monitoring degradation in potting soil, as a worst case scenario, the effect of soil type and season were also studied. The effect of microbial action was also compared to the effect of weathering by evaporation (under nitrogen in the laboratory and by the passive headspace analysis of the glass fragments from the incendiary devices in the field studies). All studies showed that microbial degradation resulted in the significant loss of n-alkanes and lesser substituted alkylbenzenes predominantly and quickly, while more highly substituted alkanes and aromatics were not significantly affected. Additionally, the residential soil during the fall season showed the most significant loss of these compounds over the course of 30 days. To combat this problem, a chemical solution is to be immediately applied to the samples as they are collected. Various household and commercial products were tested for their efficacy at low concentrations to eliminate all living bacteria in the soil. Triclosan (2% (w/v) in NaOH) proved to be the most effective at preserving ignitable liquid residues for at least 30 days.
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