Cytotoxic Effects of Nickel Nanowires in Human Fibroblasts

Felix Servin, Laura P.

04 1900

There is an increasing interest for the use of nanostructures as potential tools in areas that include biology and medicine, for applications spanning from cell separation to treatments of diseases. Magnetic nanoparticles (MNPs) have been the most widely studied and utilized nanostructures in biomedical applications. Despite their popularity, the regular shape of MNPs limits their potential for certain applications. Studies have shown that magnetic nanowires (MNWs), due to their high-­-aspect ratio and specific magnetic properties, might provide improved performance for some biomedical applications. As a consequence, MNWs have received increasing attention from researchers in the last years. However, as with any other nanostructure intended for biomedical applications, rigorous studies must be carried out to determine their potential toxicity and adverse effects before they can be successfully incorporated in clinical applications. This work attempts to elucidate the cytotoxic effects of nickel NWs (Ni NWs) in human fibroblasts by measuring cell viability under different parameters. Ni NWs of three different lengths (0.86 ± 0.02 μm, 1.1 ± 0.1 μm and 6.1 ± 0.6 μm) were fabricated by electrodeposition using porous aluminum oxide (PAO) membranes as templates. Energy dispersive X-­-Ray analysis (EDAX) and X-­-Ray diffraction (XRD) were used for the chemical characterization of the Ni NWs. Their physical characterization was done using scanning electron microscopy (SEM) and transmission electron microscopy (TEM) imaging. MTT assays were performed to assess cell viability of human fibroblasts in the presence of Ni NWs. NW length, NW/cell ratio and exposure time were changed throughout the experiments to elucidate their effects on cell viability. The results showed that NWs length has a strong effect on internalization and cytotoxicity. Smaller NWs showed higher toxicity levels at earlier times while longer NWs had stronger effects on cell viability at later times. NW/cell ratio did not seem to have a very strong effect at low concentrations. However, at high concentration (1000 NW/cell) significant loss of cell viability was observed, with the effects becoming stronger at later times. Other factors such as cell surface area, presence of oxide layer on NWs, and the cytotoxicity of Ni salts, were also studied and found to affect cell viability. For our knowledge, this is the first systematic study done in human fibroblasts wi-­-38 using ferromagnetic NWs; where the toxic effects of equivalent amounts of Ni in its salt and in its NW form are compared. It is also the first study to provide insights of the interaction between wi-­-38 cells and Ni NWs. The results of this study complement and enrich previous cytotoxicity studies of Ni NWs. This work aims at providing a more comprehensive understanding of the interaction between NWs and biological systems. Despite the advancements, further studies will be required to fully understand the factors affecting NW cytotoxicity. Only when we understand the underlying mechanisms, will we be able to design suitable nanostructures for biomedical applications.

Cytotoxicity

Nickel Nanowires

human fibroblasts

nickel salts

MTT Assay

biomedical applications

Effects of Work Exposure on Maximum Acceptable Repetition Rates in a Manual Torquing Task

Kant, Ravi

30 August 2007

Repetitive and forceful exertions have been dentified as an important risk factor for occupational injuries. One method used to determine appropriate exposures to these and other risk factors is psychophysics, which is based on individual perceptions of task demands and/or risk. Effects of work exposure have been indicated as of potential importance, but have not been well studied. Indications from an earlier study related to psychophysical limits for a repetitive manual torquing task were that five days of work conditioning had minimal effects on resulting Maximum Acceptable Repetition Rates (MARR). However, it is unknown whether and how longer work exposure durations might influence MARRs. The current study investigated the effects of work exposure on MARR and adjustment time over 10 working days (two weeks) with two days of rest after five days. Ten participants (five males and five females) performed a manual torquing (45 Nm load) task at mid-chest level in the coronal plane for a one hour test session. Starting repetition rate for each participant was set at single high and low rate on alternate days. Temporal (exposure) effects were determined, where day of exposure was the independent variable, and MARR and adjustment time were the dependent variables. Final MARRs were relatively lower during the first few exposure days (14 - 15 repetitions/min) and increased for days 5 - 7 (16 - 18 repetitions/min). On average participants made four adjustments to reach MARR . Day was not found to significantly affect MARR, though week affected both MARR and adjustment time. Thus, an exposure of two weeks may be needed to obtain stable and valid psychophysical limits for manual torquing and, perhaps, related tasks. / Master of Science

Work Exposure

Ratings of Perceived Exertion (RPE)

Manual Torquing Task (MTT)

Psychophysics

Syntéza kvantových teček pro in-vivo zobrazování / Synthesis of quantum dots for in-vivo imaging

Ferdusová, Helena

Unknown Date

The aim of this work was to synthesise water-soluble QDs using different precursors and stabilizers and to determine the toxicity of the synthesized QDs by in vivo imaging. Experiments were performed on water-soluble QDs (MPA-CdTe, MPA-CdTe/ZnS, MSA-CdTe, MSA-CdTe/ZnS, GSH-CdTe, GSH-CdTe/ZnS, TGA-CdTe, TGA-CdTe/ZnS, GSH-ZnSe and GSH-ZnSe/ZnS ) and toxicity was measured. Synthesized QDs were characterized by high intensity (fluorescence spectroscopy), FWHM and zeta potential (ZS Zetasizer) were selected due to their suitability for this task. The toxicity of QDs was determined by the MTT assay on the cell line HEK 293. The experiments show that a core/shell structure is less toxic than a core structure. The results indicate that the toxicity of our synthesized QDs is the lowest for MPA-CdTe (core structure) and MPA-CdTe/ZnS (core/shell structure).

Avaliação da eficiência do tratamento com fotoeletrocatálise e cloração convencional na remoção dos azo corantes Disperse Orange 1, Disperse Red 1 e Disperse Red 13 de amostras aquosas / Evaluation of the efficiency of the treatment with photoelectrocatalysis and conventional chlorination in the removal of the azo dyes Disperse Orange 1, Disperse Red 1 and Disperse Red 13 from aqueous samples

Ferraz, Elisa Raquel Anastácio

08 December 2011

Os azo corantes atualmente são considerados um assunto preocupante no que se refere à saúde pública e ambiental, pois quando lançados nos efluentes industriais contaminam o meio ambiente. Infelizmente, o método convencional de tratamento de efluentes têxteis, bem como de águas brutas que os recebem não são capazes de remover de maneira eficaz os corantes bem como sua toxicidade. Dentro deste contexto, este trabalho teve como objetivo avaliar a eficiência do tratamento de amostras aquosas por fotoeletrocatálise em comparação com a cloração convencional como método alternativo de degradação de azo corantes, usando os corantes Disperse Orange 1, Disperse Red 1 e Disperse Red 13 como modelo. Adicionalmente, foi avaliada a citotoxicidade dos corantes originais em condrócitos bovinos e células HepG2 em cultura em monocamadas e 3D. Para tanto, soluções desses corantes originais, clorados e fotoeletrocatalisados foram avaliadas utilizando ensaios de genotoxicidade/mutagenicidade, citotoxicidade e ecotoxicidade. Todos os corantes originais e clorados foram genotóxicos para as células HepG2 no ensaio cometa. Para o ensaio com Salmonella, a cloração reduziu a mutagenicidade dos corantes para a linhagem YG1041 e aumentou o efeito para a linhagem TA98, exceto o Disperse Red 13 que teve a mutagenicidade reduzida para as duas linhagens após cloração. A fotoeletrocatálise removeu tanto a genotoxicidade quanto a mutagenicidade. Somente o Disperse Orange 1 induziu apoptose pelo ensaio com anexina V, mas essa citotoxicidade foi removida após os tratamentos. Os corantes Disperse Red 1 e Disperse Red 13 foram tóxicos para D. similis enquanto somente o Disperse Red 1 foi tóxico para V. fischeri, sendo que os tratamentos por cloração e fotoeletrocatálise diminuíram a toxicidade apresentada. Os corantes Disperse Orange 1 e Disperse Red 13 passaram a ser tóxicos para V. fischeri após cloração, sendo que a fotoeletrocatálise do Disperse Red 13 também gerou produtos tóxicos para esse organismo. Assim, embora seja um método de tratamento promissor, atenção deve ser dada na avaliação e aplicação da fotoeletrocatálise como um método alternativo à cloração. Os corantes originais Disperse Orange 1 e Disperse Red 13 diminuíram a atividade mitocondrial dos condrócitos, sendo que o Disperse Red 13 também diminuiu a produção de lactato. Todos os corantes reduziram a atividade mitocondrial das células HepG2 em monocamadas, ao passo que o Disperse Orange 1 deixou de exercer esse efeito no cultivo em 3D. Somente o Disperse Red 13 diminuiu a atividade de desidrogenases das células HepG2 e tal efeito foi observado tanto no cultivo em monocamadas quanto em 3D. / The azo dyes are currently considered as a concern regarding the environmental and public health, since when released in industrial effluents they pollute the environment. Unfortunately, the conventional method of treatment of textile effluents is not able to effectively remove both dyes and their toxicity. Within this context, this study aimed to evaluate the effectiveness of the treatment of aqueous samples by photoelectrocatalysis compared to conventional chlorination as an alternative method of degradation of azo dyes, using the dyes Disperse Orange 1, Disperse Red 1 and Disperse Red 13 as a model. Additionally, we evaluated the cytotoxicity of the original dyes using HepG2 cells and chondrocytes cultured in monolayer and in 3D. To this end, solutions of these original dyes, chlorinated and photoelectrocatalysed were evaluated using tests of genotoxicity / mutagenicity, cytotoxicity and ecotoxicity. All the dyes, original and chlorinated, were genotoxic to HepG2 cells in the comet assay. For the test with Salmonella, chlorination reduced the mutagenicity of the dyes for the YG1041 strain and increased the effect for the TA98 strain, except Disperse Red 13, which had the mutagenic effect reduced for both strains after chlorination. The photoelectrocatalysis removed both genotoxicity and mutagenicity. Only Disperse Orange 1 induced apoptosis by annexin V assay, but this cytotoxicity was removed after treatment. The dye Disperse Red 1 and Disperse Red 13 were toxic to D. similis while only the Disperse Red 1 was toxic to V. fischeri, and the treatment by chlorination and photoelectrocatalysis decreased the toxicity showed. The dyes Disperse Orange 1 and Disperse Red 13 began toxic to V. fischeri after chlorination, and the photoelectrocatalysis of the Disperse Red 13 generated toxic products for this organism. So, while it is a promising treatment method, attention should be given in the evaluation and application of photoelectrocatalysis as an alternative to chlorination. The dyes Disperse Orange 1 and Disperse Red 13 decreased the mitochondrial activity of chondrocytes, and the dye Disperse Red 13 also decreased the production of lactate. All the dyes reduced the mitochondrial activity of the HepG2 cells cultured in monolayer, while the Disperse Orange 1 did no show this effect in 3D. Only Disperse Red 13 decreased the activity of dehydrogenases of HepG2 cells and this effect was observed both in monolayer and in 3D.

3D

3D.

azo corantes

azo dyes

CCK-8

CCK-8

chlorination

cloração

Disperse Orange 1

Disperse Orange 1

Disperse Red 1

Disperse Red 1

Disperse Red 13

Disperse Red 13

fotoeletrocatálise

lactate

lactato

monocamadas

monolayer

MTT

MTT

photoelectrocatalysis

Atividade Antiproliferativa de Benzaldeído Canfeno Tiossemicarbazonas em Células de Melanoma Humano (SK-MEL-37) / Antiproliferative Activity Benzaldehyde Camphene Thiosemicarbazone in Human Melanoma Ceels(SK-MEL-37)

SOARES, Paula Roberta Otaviano

21 May 2008

Made available in DSpace on 2014-07-29T15:16:34Z (GMT). No. of bitstreams: 1 Mestrado Paula.pdf: 2508093 bytes, checksum: eaf6dc0cbce3c8dd66202b6bce9a4939 (MD5) Previous issue date: 2008-05-21 / The thiosemicarbazones are chemical compounds of considerable scientific interest due to their important biological properties, such as antitumoral, antibacterial, antiviral, and antiprotozoal, among others. The studied compounds have the natural monoterpene camphene in the R4 position and the benzaldehyde in R2, with the substitution in the ring for different (R) groups, making this work unique. In this way, thirteen different compounds were derived from the benzaldehyde camphene thiosemicarbazone: camphene isotyiocyanate, camphene thiosemicarbazide, benzaldehyde camphene thiosemicarbazone, p-metyl benzaldehyde camphene thiosemicarbazone, p-methoxy benzaldehyde camphene thiosemicarbazone, o-chloro benzaldehyde camphene thiosecarbazone, m-chloro benzaldehyde camphene thiosemicarbazone, p-chloro-benzaldehyde camphene thiosemicarbazone, o-nitrobenzaldehyde camphene thiosemicarbazone, m-nitro- benzaldehyde camphene thiosemicarbazone, p-nitrobenzaldehyde camphene thiosemicarbazone, p-dimetylamino benzaldehyde camphene thiosemicarbazone and p-hydroxy benzaldehyde camphene thiosemicarbazone. The experiments were conducted in vitro using human melanoma cells (SK-Mel-37), because the melanoma is the most serious type of skin cancer due to its high possibility to metastasize and its resistance to the induction of apoptosis by antineoplastic drugs. We first performed a visual screening to observe if there was detachment of more than 85% of the total number of cells, after treatment with the sole concentration of 100 μM. Thus, six compounds were selected: benzaldehyde camphene thiosemicarbazone, m-chloro benzaldehyde camphene thiosemicarbazone, m-nitro-benzaldehyde camphene thiosemicarbazone, p-dimetylamino benzaldehyde camphene thiosemicarbazone, p-hydroxy benzaldehyde camphene thiosemicarbazone e p-methoxy benzaldehyde camphene thiosemicarbazone. The morphological analysis of the treated cells, by inverted phase contrast microscope and Giemsa stain, showed intense cellular vacuolization and nuclear fragmentation. In the cellular viability test, through the MTT colorimetric assay, the compounds showed IC50 (inhibitory concentration for 50% of the cells) values between 12, 84 μM and 32, 18 μM, which are bellow of those described in the literature for compounds with antineoplastic action. The analysis of nuclear fragmentation by fluorescence microscopy was performed by the incorporation of propidium iodide, and it was observed, at different time points, a progressive increase of cellular damage and a pronounced nuclear fragmentation after the cellular detachment. The analysis of the DNA fragmentation by agarose gel electrophoresis revealed that the unequivocal cytotoxic action of the compounds occurred by apoptosis. Our results showed that six compounds derived from the benzaldehyde camphene thiosemicarbazones had cytotoxic activity in human melanoma cells (SK-Mel-37) in vitro, and constitute potential candidates for future analysis aiming its therapeutic application. / As tiossemicarbazonas são compostos de considerável interesse científico devido às suas importantes propriedades biológicas, tais como antitumoral, antimicrobiana, antiviral, antiprotozoária, dentre outras. Os compostos estudados apresentam o monoterpeno natural canfeno na posição R4 e o benzaldeído em R2, com substituição no anel por diferentes grupos (R), o que confere ao presente trabalho um caráter inédito. Dessa forma, foram apresentados para este estudo onze diferentes compostos derivados de benzaldeído canfeno tiossemicarbazona: benzaldeído canfeno tiossecarbazona, p-metil benzaldeído canfeno tiossemicarbazona, p-metóxi benzaldeído canfeno tiossemicarbazona, o-cloro benzaldeído canfeno tiossemicarbazona, m-cloro benzaldeído canfeno tiossemicarbazona, p-cloro benzaldeído canfeno tiossemicarbazona, onitro benzaldeído canfeno tiossemicarbazona, m-nitro benzaldeído canfeno tiossemicarbazona, p-nitro benzaldeído canfeno tiossemicarbazona, p-dimetilamino benzaldeído canfeno tiossemicarbazona e p-hidróxi benzaldeído canfeno tiossemicarbazona, além de isotiocianato canfeno e canfeno tiossemicarbazida. Os experimentos foram realizados in vitro utilizando-se células de melanoma humano (SKMel- 37), visto que o melanoma é o tipo mais grave de câncer de pele devido à sua alta possibilidade de metástase e resistência à indução de apoptose por drogas antineoplásicas. Inicialmente, realizamos um screening visual observando-se o desprendimento de mais de 85% do total das células, após tratamento com a concentração única de 100 μM. Dessa análise, foram selecionados seis compostos: benzaldeído canfeno tiossemicarbazona, mcloro- benzaldeído canfeno tiossemicarbazona, m-nitro-benzaldeído canfeno tiossemicarbazona, p-dimetilamino-benzaldeído canfeno tiossemicarbazona, p-hidróxibenzaldeído canfeno tiossemicarbazona e p-metóxi benzaldeído canfeno tiossemicarbazona. A análise morfológica das células tratadas e coradas com Giemsa e observadas através de microscópio óptico invertido em contraste de fase demonstrou intensa vacuolização celular e fragmentação nuclear. Na análise da viabilidade celular, através do ensaio colorimétrico do MTT, os compostos apresentaram valores de IC50 (Concentração Inibitória para 50% das células) entre 12,84 μM e 32,18 μM, valores que se encontram abaixo do descrito na literatura para compostos com ação antineoplásica. A análise da fragmentação nuclear através de microscopia de fluorescência foi realizada pela incorporação de iodeto de propídio. Observamos, em diferentes tempos, o aumento progressivo dos danos celulares e a fragmentação nuclear pronunciada após o desprendimento das células. A análise de fragmentação de DNA por eletroforese em gel de agarose revelou de maneira inequívoca que a ação citotóxica observada ocorre por apoptose. Os resultados obtidos demonstraram que seis compostos derivados do benzaldeído canfeno tiossemicarbazonas apresentaram atividade citotóxica em células de melanoma humano (SK-Mel-37) in vitro, e são candidatos promissores para as análises futuras visando à sua aplicação terapêutica.

Benzaldeído canfeno tiossemicarbazonas

melanoma

MTT

apoptose

citotoxicidade

Benzaldehyde camphene thiosemicarbazones

melanoma

in vitro

MTT

apoptosis

cytotoxicity

Avaliação da eficiência do tratamento com fotoeletrocatálise e cloração convencional na remoção dos azo corantes Disperse Orange 1, Disperse Red 1 e Disperse Red 13 de amostras aquosas / Evaluation of the efficiency of the treatment with photoelectrocatalysis and conventional chlorination in the removal of the azo dyes Disperse Orange 1, Disperse Red 1 and Disperse Red 13 from aqueous samples

Elisa Raquel Anastácio Ferraz

08 December 2011

Os azo corantes atualmente são considerados um assunto preocupante no que se refere à saúde pública e ambiental, pois quando lançados nos efluentes industriais contaminam o meio ambiente. Infelizmente, o método convencional de tratamento de efluentes têxteis, bem como de águas brutas que os recebem não são capazes de remover de maneira eficaz os corantes bem como sua toxicidade. Dentro deste contexto, este trabalho teve como objetivo avaliar a eficiência do tratamento de amostras aquosas por fotoeletrocatálise em comparação com a cloração convencional como método alternativo de degradação de azo corantes, usando os corantes Disperse Orange 1, Disperse Red 1 e Disperse Red 13 como modelo. Adicionalmente, foi avaliada a citotoxicidade dos corantes originais em condrócitos bovinos e células HepG2 em cultura em monocamadas e 3D. Para tanto, soluções desses corantes originais, clorados e fotoeletrocatalisados foram avaliadas utilizando ensaios de genotoxicidade/mutagenicidade, citotoxicidade e ecotoxicidade. Todos os corantes originais e clorados foram genotóxicos para as células HepG2 no ensaio cometa. Para o ensaio com Salmonella, a cloração reduziu a mutagenicidade dos corantes para a linhagem YG1041 e aumentou o efeito para a linhagem TA98, exceto o Disperse Red 13 que teve a mutagenicidade reduzida para as duas linhagens após cloração. A fotoeletrocatálise removeu tanto a genotoxicidade quanto a mutagenicidade. Somente o Disperse Orange 1 induziu apoptose pelo ensaio com anexina V, mas essa citotoxicidade foi removida após os tratamentos. Os corantes Disperse Red 1 e Disperse Red 13 foram tóxicos para D. similis enquanto somente o Disperse Red 1 foi tóxico para V. fischeri, sendo que os tratamentos por cloração e fotoeletrocatálise diminuíram a toxicidade apresentada. Os corantes Disperse Orange 1 e Disperse Red 13 passaram a ser tóxicos para V. fischeri após cloração, sendo que a fotoeletrocatálise do Disperse Red 13 também gerou produtos tóxicos para esse organismo. Assim, embora seja um método de tratamento promissor, atenção deve ser dada na avaliação e aplicação da fotoeletrocatálise como um método alternativo à cloração. Os corantes originais Disperse Orange 1 e Disperse Red 13 diminuíram a atividade mitocondrial dos condrócitos, sendo que o Disperse Red 13 também diminuiu a produção de lactato. Todos os corantes reduziram a atividade mitocondrial das células HepG2 em monocamadas, ao passo que o Disperse Orange 1 deixou de exercer esse efeito no cultivo em 3D. Somente o Disperse Red 13 diminuiu a atividade de desidrogenases das células HepG2 e tal efeito foi observado tanto no cultivo em monocamadas quanto em 3D. / The azo dyes are currently considered as a concern regarding the environmental and public health, since when released in industrial effluents they pollute the environment. Unfortunately, the conventional method of treatment of textile effluents is not able to effectively remove both dyes and their toxicity. Within this context, this study aimed to evaluate the effectiveness of the treatment of aqueous samples by photoelectrocatalysis compared to conventional chlorination as an alternative method of degradation of azo dyes, using the dyes Disperse Orange 1, Disperse Red 1 and Disperse Red 13 as a model. Additionally, we evaluated the cytotoxicity of the original dyes using HepG2 cells and chondrocytes cultured in monolayer and in 3D. To this end, solutions of these original dyes, chlorinated and photoelectrocatalysed were evaluated using tests of genotoxicity / mutagenicity, cytotoxicity and ecotoxicity. All the dyes, original and chlorinated, were genotoxic to HepG2 cells in the comet assay. For the test with Salmonella, chlorination reduced the mutagenicity of the dyes for the YG1041 strain and increased the effect for the TA98 strain, except Disperse Red 13, which had the mutagenic effect reduced for both strains after chlorination. The photoelectrocatalysis removed both genotoxicity and mutagenicity. Only Disperse Orange 1 induced apoptosis by annexin V assay, but this cytotoxicity was removed after treatment. The dye Disperse Red 1 and Disperse Red 13 were toxic to D. similis while only the Disperse Red 1 was toxic to V. fischeri, and the treatment by chlorination and photoelectrocatalysis decreased the toxicity showed. The dyes Disperse Orange 1 and Disperse Red 13 began toxic to V. fischeri after chlorination, and the photoelectrocatalysis of the Disperse Red 13 generated toxic products for this organism. So, while it is a promising treatment method, attention should be given in the evaluation and application of photoelectrocatalysis as an alternative to chlorination. The dyes Disperse Orange 1 and Disperse Red 13 decreased the mitochondrial activity of chondrocytes, and the dye Disperse Red 13 also decreased the production of lactate. All the dyes reduced the mitochondrial activity of the HepG2 cells cultured in monolayer, while the Disperse Orange 1 did no show this effect in 3D. Only Disperse Red 13 decreased the activity of dehydrogenases of HepG2 cells and this effect was observed both in monolayer and in 3D.

3D

azo corantes

CCK-8

cloração

Disperse Orange 1

Disperse Red 1

Disperse Red 13

fotoeletrocatálise

lactato

monocamadas

MTT

3D.

azo dyes

CCK-8

chlorination

Disperse Orange 1

Disperse Red 1

Disperse Red 13

lactate

monolayer

MTT

photoelectrocatalysis

Recherche de sécrétagogues naturels du GLP-1 : exploration du potentiel antidiabétique d'espèces du genre Cynanchum (Apocynaceae) / Research for natural GLP-1 secretagogues : exploration of the antidiabetic potential of Cynanchum species (Apocyanceae)

Tsoukalas, Michail

14 September 2015

Dans le cadre de la recherche de composés pouvant stimuler la sécrétion de l’hormone hypoglycémiante GLP-1 (glucagon-like-peptide 1) et sur des critères ethno-pharmacologiques et taxonomiques, différentes Asclepiadoidées ont été criblées sur un modèle cellulaire (lignée STC-1). Cette approche nous a permis de sélectionner deux espèces de Cynanchum malgaches. L’isolement bio-guidé de C. marnierianum a conduit à la purification de 2 nouveaux glycosides prégnaniques, les marnieranosides. L’exploration phytochimique de C. menarandrense a permis l’identification de 5 nouvelles structures prégnaniques et de 2 prégnanes déjà signalés dans un genre taxonomiquement proche et hypoglycémiant : Caralluma. Les prégnanes purifiés ont aussi été évalués pour leur effet sécrétagogue GLP-1 et cytotoxique mais seuls les marnieranosides se sont avérés bioactifs. Des analogies structurales entre les molécules identifiées dans le genre Cynanchum et des molécules bioactives isolées au préalable d’espèces antidiabétiques (genres Hoodia et Caralluma) valident notre stratégie pour la découverte des métabolites secondaires avec un potentiel antidiabétique. / In the framework of our search for antidiabetic compounds capable of stimulating the secretion of the hypoglycemic hormone GLP-1 (glucagon-like-peptide 1), based on ethnopharmacological and taxomic criteria, several Asclepiadoidae plants were screened with an in vitro model (STC-1 cell line). This approach led to the selection of two Malagasy Cynanchum species.Bio-guided fractionation of C. marnierianum led to the purification of two new pregnane glycosides named marnieranosides. The phytochemical study of C. menarandrense led to the identification of 5 new pregnane structures along with 2 pregnanes previously reported in the closely related and hypoglycemic Caralluma genus. The isolated pregnanes were evaluated for their GLP-1 secretagogue and cytotoxic activity but only the marnieranosides were proven bioactive. Structural similarities of the Cynanchum pregnanes with the ones previously isolated from antidiabetic plants (Hoodia and Caralluma), validated our approach for the discovery of secondary metabolites with antidiabetic potential.

Asclépiadoidées

Cynanchum marnierianum

Cynanchum menarandrense

Glycosides prégnaniques

Diabète de type 2

Incrétine

STC-1

P57

Triterpènes

Flanoïdes

MTT

MTS

Cytométrie

Asclepiadoidae

Cynanchum marnierianum

Cynanchum menarandrense

Pregnane glycosides

Type 2 diabetes

Incretin

STC-1

P57

Triterpenes

Flavonoids

MTT

MTS

Cytometry

581

615.32

Synthèse et évaluation des propriétés anticancéreuses de nouveaux dérivés de tétrahydro gbs carbolines / Synthesis and evaluation of anti-cancer properties of novel tetrahydro-gbs-carbolines derivatives

Motatu, Iulia-Alexandra

11 February 2015

Resumé<p><p>Le cancer reste une maladie grave car il représente une des causes principales de décès dans les pays développés. Plus d'un tiers de cancers solides réagi très faiblement à la chimiothérapie conventionnelle et/ou développe rapidement une résistance au traitement. Des thérapies ciblées, utilisées en association avec les traitements conventionnels, pourraient augmenter la survie des patients. C’est dans le cadre des thérapies ciblées que ce travail de thèse s’inscrit.<p><p>Nous nous sommes intéressés à synthétiser de nouvelles molécules qui pourraient être efficaces contre les cancers résistants à l'apoptose et donc aux traitements conventionnels. La principale cible de notre projet était la kinase DYRK1A, qui a été décrite comme étant impliquée dans la prolifération cellulaire et la résistance à l'apoptose. Dans ce but, une série de nouvelles molécules, principalement des dérivés de la tétrahydro-β-carboline, a été synthétisée et leurs propriétés antitumorales ont été caractérisées in vitro. En effet, ces structures ressemblent à celle de l’harmicine, un alcaloïde apparenté à l’harmine, l’inhibiteur de DYRK1A le plus sélectif et le plus puissant connu à ce jour. <p><p> Une méthodologie "one-pot" très efficace, développée au Laboratoire de Chimie Organique (ULB), a été utilisée pour obtenir les squelettes de type tétrahydro-β-carboline. Le deuxième chapitre de cette thèse détaille cette méthodologie et décrit la librairie de 47 dérivés qui ont été synthétisés. <p><p>Un second objectif de ce travail était de développer une version énantiosélective de cette méthodologie afin de la rendre encore plus intéressante. Cette partie, décrite dans le troisième chapitre, a été réalisée avec succès en collaboration avec l’Unité de Recherche en Chimie Organique et Macromoléculaire de l'Université du Havre (Le Havre, France). Les expériences que nous avons réalisées ont permis, non seulement d'obtenir le composé le plus actif avec un bon excès énantiomérique, mais également de mieux comprendre les aspects mécanistiques qui constituent la base de l'énantiosélectivité. <p><p>L'évaluation des propriétés anticancereuses des composés synthétisés est ensuite détaillée dans le quatrième chapitre. Les analyses toxicologiques et pharmacologiques ont montré que trois molécules présentent une bonne activité antitumorale in vitro avec une sélectivité prometteuse entre les cellules cancéreuses et les cellules normales. D’une manière inattendue, les tests biologiques plus poussés, que nous avons réalisés, ont suggéré que ces molécules n'agissent pas comme des inhibiteurs de kinases. Elles interfèrent en fait sur la prolifération cellulaire, en ciblant des facteurs de transcription spécifiques, par des mécanismes qui doivent encore être élucidés. Ces expériences biologiques ont été réalisées en collaboration avec le Laboratoire de Toxicologie et Cancérologie Expérimentale (ULB).<p><p>/<p><p>Summary<p><p>Cancer is a devastating disease which remains one of the major causes of death in developed countries. More than one third of adult solid cancers respond very poorly to chemotherapy and/or rapidly develop resistance to treatment. Targeted therapies, used in combination with conventional treatments could be used to increase the survival of cancer patients.<p><p>In this work we were interested in developing new molecules related to the targeted therapy concept that could be effective against cancer types that are resistant to apoptosis and thereby to conventional treatments. The leading target of our project was the DYRK1A kinase, which was described as being involved in cell proliferation and resistance to apoptosis. For this purpose, a series of new molecules, mainly tetrahydro β carboline derivatives, has been synthesized and their antitumoral properties were characterized in vitro. Indeed these structures resemble harmicine, an alkaloid similar to harmine, the most selective and potent DYRK1A inhibitor known to date.<p><p> An efficient “one-pot” methodology, developed in the Laboratoire de Chimie Organique (ULB) was used to obtain the tetrahydro β carboline scaffolds. Chapter II of this work describes the use of this methodology for the synthesis of a library of 47 derivatives.<p><p>A second goal of this work was to further improve this methodology by developing an enantioselective version. This part, described in chapter III, was carried out successfully in collaboration with the Research Unit in Macromolecular and Organic Chemistry of Université du Havre (Le Havre, France). The experiments we have performed enabled us not only to obtain the most active compound with a good enantiomeric excess, but also to gain insight of the mechanism responsible for the enantioselectivity.<p><p>The fourth chapter details the evaluation of the anti cancer properties of the synthesised compounds. The pharmacological and toxicological analyses showed that 3 molecules display actual anti-tumor activity in vitro with a promising selectivity between cancerous and normal cells. Surprisingly, further biological assays we have performed suggested that these molecules do not act as kinase inhibitors but influence cell proliferation through the targeting of specific transcription factors by mechanisms that remain to be deciphered. The biological experiments were performed in collaboration with the Cancerology and Experimental Toxicology Laboratory (ULB).<p><p><p><p><p><p> / Doctorat en Sciences / info:eu-repo/semantics/nonPublished

Chimie

Sciences exactes et naturelles

Antineoplastic agents

Anticancéreux

asymmetric synthesis

videomicroscopy

MTT assay

dérivés de tétrahydro-&

vidéomicroscopie

AP-1

cancer

DYRK1A

produits anti-cancereux

MTT

Pictet-Spengler reaction

anti-cancer compounds

Syntéza kvantových teček pro in-vivo zobrazování / Synthesis of quantum dots for in-vivo imaging

Ferdusová, Helena

January 2015

The aim of this work was to synthesise water-soluble QDs using different precursors and stabilizers and to determine the toxicity of the synthesized QDs by in vivo imaging. Experiments were performed on water-soluble QDs (MPA-CdTe, MPA-CdTe/ZnS, MSA-CdTe, MSA-CdTe/ZnS, GSH-CdTe, GSH-CdTe/ZnS, TGA-CdTe, TGA-CdTe/ZnS, GSH-ZnSe and GSH-ZnSe/ZnS ) and toxicity was measured. Synthesized QDs were characterized by high intensity (fluorescence spectroscopy), FWHM and zeta potential (ZS Zetasizer) were selected due to their suitability for this task. The toxicity of QDs was determined by the MTT assay on the cell line HEK 293. The experiments show that a core/shell structure is less toxic than a core structure. The results indicate that the toxicity of our synthesized QDs is the lowest for MPA-CdTe (core structure) and MPA-CdTe/ZnS (core/shell structure).

The role of NQO2 in tumour growth and response to therapeutic drugs

Ikhmais, Balqis

January 2018

NRH quinone oxidoreductase 2 (NQO2) is regarded as a mammalian Phase I detoxifying enzyme responsible for reducing quinones to hydroquinones. NQO2 is highly expressed in different types of cancer such as breast and prostate cancer suggesting its participatory role in the progression of these diseases. A potential reason for this is that NQO2 has the ability to modulate the stability of cyclin D1 and activity of NF-ÃŽÂoB and it has been shown that inhibition of NQO2, either genetically or pharmacologically, can alter the pattern of proliferation of cancer cells. However, the biological roles of NQO2 in cancer progression are still ambiguous and need further investigation. A panel of seven ovarian cancer cell lines (OVCs) were screened for the presence and functionality of NQO2. SKOV-3 and TOV-112D cells expressing comparatively the highest and lowest levels of NQO2 were stably transduced to silence and overexpress NQO2 respectively. Pharmacological inhibition was achieved using resveratrol or a series of novel 4-aminoquinolines synthesised in-house. Cell proliferation was monitored by cell counting and clonogenic assays. Flow cytometric analysis was used to determine cell cycle distribution and levels of ROS following modulation of NQO2 function. The expression of cell cycle regulatory markers was determined by Western blot. The contributory roles of NQO2 in determining the cytotoxicity of Adriamycin (ADR) towards OVCs was investigated using MTT assay together with evaluation of P-gp expression and basal ROS levels. In the OVCs panel, NQO2 protein levels and enzymatic activity showed an excellent correlation; with activity varying 36-fold between the cell lines. The sensitivity of OVCs to CB1954 was significantly increased when combined with the NRH-like co-factor, EP0152R. This supports the notion that NQO2 mediates the toxicity of CB1954, which is further confirmed by the strong correlation between cellular NQO2 activity and the responsiveness of the OVC cell lines to CB1954. Hydrazone quinolines showed the highest inhibitiory potency against NQO2 in SKOV-3 when compared to the typical and in-house synthesised quinolines inhibitors. NQO2-overexpressing TOV-112D cells showed more aggressive growth pattern and higher capacity to form colonies than wild-type cells. This was consistently associated with an enhancement in the progression of cells through cell cycle phases and significant reduction in Rb expression. A reduction in ROS levels in NQO2-OE cells may also explain this enhancement in cell growth. Overexpressing NQO2 also resulted in destabilisation of CDK4 and cyclin D1 with significant reduction in their expression levels, and concomitant increase in p-cyclin D1 (Thr286). The involvement of NQO2 in controlling cyclin D1 turnover is also confirmed in SKOV-3 cells when genetic silencing of NQO2 was accompanied by significant reduction in p-cyclin D1 and subsequent stabilisation of cyclin D1 levels. In spite of this, no alterations in the growth pattern of SKOV-3 cells were observed highlighting the impact of cell type on the variations in cellular responses. The role of NQO2 in determining the toxicity of ADR treatment was not proved in OVC cells. This was despite that modulation of NQO2 levels caused significant changes in P-gp expression. The intracellular basal levels of ROS was found to affect the responsiveness of OVCs to ADR as demonstrated when treating SKOV-3 with resveratrol was accompanied by significant increase in ROS levels and concomitant enhancement in the cells’ response to ADR. In conclusion, NQO2 can profoundly alter the proliferation characteristics of OVCs and is a potential therapeutic target for the treatment of this disease. However, the biological functions of NQO2 and its contributory roles in particular pathways are varied among different types of cancer -in other words- are highly dependent on cancer type.

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