Quantitative Support for the Adverse Outcome Pathway “Oxidative DNA Damage Leading to Chromosomal Aberrations and Mutations”

Huliganga, Elizabeth

28 March 2023

Adverse outcome pathways (AOPs) provide a framework to organize and weigh the evidence linking a toxicant’s initial interactions with molecules in the cell to adverse outcomes of regulatory concern. AOPs are constructed in modules that include key events (KEs) and key event relationships (KERs). Quantitative understanding of the KERs is critical for the development of predictive toxicological models. The objective of this project was to investigate the ability to define the quantitative associations of the KERs upstream, and contained in, an existing AOP (#296): “Oxidative DNA Damage Leading to Chromosomal Aberrations and Mutations”. The data supporting quantitative associations between these KERs was gathered through literature review and experimental methods. I first used systematic literature review tools to develop and apply a pragmatic and transparent method to search the literature for AOP evidence. A broad search, covering all of the KERs of interest, was initially conducted. This search, which retrieved more than 230 thousand articles, demonstrates the data-rich nature of the AOP. An artificial intelligence informed prioritization of the top 100 articles were then examined in detail. This approach identified 39 articles containing qualitative empirical support for the AOP, but limited quantitative evidence of the KERs. A second search was conducted to address the need for quantitative evidence as well as the lack of evidence for the KER between and increase in reactive oxygen species (ROS) and oxidative DNA damage. The second search retrieved 12 articles that could be used to define a quantitative relationship between cellular ROS and oxidative DNA damage. To begin to address gaps in quantitative understanding, I then conducted experiments in the laboratory to measure oxidative DNA damage, DNA strand breaks, chromosomal aberrations, and mutations in TK6 cells after exposure to a range of concentrations of 4-Nitroquinoline 1-oxide (4NQO: a prototype ROS producing agent). An increase in both oxidative DNA damage and DNA strand breaks was observed after 2, 4, and 6 h exposures with the high throughput comet assay (CometChip). An increase in the incidence of micronuclei was observed after a 24 h exposure to a low concentration of 4NQO, as measured with the flow cytometry micronucleus assay, while high cytotoxicity was found at higher concentrations. Lastly an increase in mutation frequency was observed with Duplex Sequencing, an error-corrected sequencing technology. Additionally, an increase in the proportion of C>A transversions was observed, consistent with the expected mutations following oxidative DNA lesions. Overall, my work contributes to the quantitative understanding of AOP #296 and this project serves as a key example of AOP-informed study design, highlighting notable challenges in characterizing quantitative relationships.

Adverse Outcome Pathways

Reactive Oxygen Species

DNA damage

genotoxicity

toxicology

Development and evaluation of nanoemulsion and microsuspension formulations of curcuminoids for lung delivery with a novel approach to understanding the aerosol performance of nanoparticles

Al Ayoub, Yuosef, Gopalan, Rajendran C., Najafzadeh, Mojgan, Mohammad, Mohammad A., Anderson, Diana, Paradkar, Anant R, Assi, Khaled H.

2018 December 1928

Yes / Extensive research has demonstrated the potential effectiveness of curcumin against various diseases, including asthma and cancers. However, few studies have used liquid-based vehicles in the preparation of curcumin formulations. Therefore, the current study proposed the use of nanoemulsion and microsuspension formulations to prepare nebulised curcuminoid for lung delivery. Furthermore, this work expressed a new approach to understanding the aerosol performance of nanoparticles compared to microsuspension formulations. The genotoxicity of the formulations was also assessed. Curcuminoid nanoemulsion formulations were prepared in three concentrations (100, 250 and 500 µg/ml) using limonene and oleic acid as oil phases, while microsuspension solutions were prepared by suspending curcuminoid particles in isotonic solution (saline solution) of 0.02% Tween 80. The average fine particle fraction (FPF) and mass median aerodynamic diameter (MMAD) of the nebulised microsuspension formulations ranged from 26% and 7.1 µm to 40% and 5.7 µm, for 1000 µg/ml and 100 µg/ml respectively. In a comparison of the low and high drug concentrations of the nebulised nanoemulsion, the average FPF and MMAD of the nebulised nanoemulsion formulations prepared with limonene oil ranged from 50% and 4.6 µm to 45% and 5.6 µm, respectively; whereas the FPF and MMAD of the nebulised nanoemulsion prepared with oleic acid oil ranged from 46% and 4.9 µm to 44% and 5.6 µm, respectively. The aerosol performance of the microsuspension formulations were concentration dependent, while the nanoemulsion formulations did not appear to be dependent on the curcuminoids concentration. The performance and genotoxicity results of the formulations suggest the suitability of these preparations for further inhalation studies in animals.

Nanoemulsion

Microsuspension

Curcuminoids

Lung delivery

Nebuliser formulation

Genotoxicity

Efeitos genotóxico e citotóxico ex vivo da Micotoxina fumonisina b1 em leucócitos humanos

Kaminski, Taís Fernanda Andrzejewski

21 February 2017

Submitted by Marcos Anselmo (marcos.anselmo@unipampa.edu.br) on 2017-06-20T18:20:05Z No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) TAIS FERNANDA ANDRZEJEWSKI KAMINSKI.pdf: 736237 bytes, checksum: 7739abe4dcd9ebf1aa4595b41498419a (MD5) / Approved for entry into archive by Marcos Anselmo (marcos.anselmo@unipampa.edu.br) on 2017-06-20T18:20:34Z (GMT) No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) TAIS FERNANDA ANDRZEJEWSKI KAMINSKI.pdf: 736237 bytes, checksum: 7739abe4dcd9ebf1aa4595b41498419a (MD5) / Made available in DSpace on 2017-06-20T18:20:34Z (GMT). No. of bitstreams: 2 license_rdf: 1232 bytes, checksum: 66e71c371cc565284e70f40736c94386 (MD5) TAIS FERNANDA ANDRZEJEWSKI KAMINSKI.pdf: 736237 bytes, checksum: 7739abe4dcd9ebf1aa4595b41498419a (MD5) Previous issue date: 2017-02-21 / Os fungos produzem vários metabólitos secundários, onde muitos destes têm sido associados com a indução de efeitos tóxicos em animais e seres humanos. O efeito toxicológico, incluindo o carcinogênico, tem sido observado em mais de 300 micotoxinas estruturalmente conhecidas. As Fumonisinas são micotoxinas produzidas principalmente por Fusarium verticillioides e Fusarium proliferatum, as quais frequentemente contaminam vários alimentos, especialmente milho e seus derivados, induzindo ao aparecimento de quadros patológicos em humanos. A Fumonisina B1 (FB1) é a mais prevalente, respondendo por aproximadamente 70% do total das micotoxicoses. Esta micotoxina está associada com leucoencefalomalácia (LEM) em cavalos, edema pulmonar em suínos e hepatocarcinoma em ratos, além de estar relacionada à inibição da biossíntese de esfingolípideos e ao aumento do risco de cancro esofágico em seres humanos. O presente estudo teve como objetivo investigar os efeitos citotóxico e genotóxico da fumonisina B1 através do teste de viabilidade celular e do teste de proliferação celular em cultura de leucócitos humanos. As concentrações testadas foram de 200; 100; 50; 5; 0,5; 0,05; 0,005 μg/mL e 300; 30; 3; 1; 0,1; 0,01 fg/mL. Todos os ensaios foram realizados em triplicatas sendo que, como controle positivo foi utilizado H2O2 4mM e, como controle negativo, tampão PBS 7,4. Com exceção das concentrações de 3fg/mL, 0,1fg/mL e 0,01fg/mL, todas as concentrações testadas demonstraram ser citotóxicas (p<0,05). Em relação ao teste de genotoxicidade, exceto as concentrações de 0,1fg/mL e 0,01fg/mL, demonstraram interferir significativamente na proliferação celular. Podemos concluir, de forma inédita, que somente em concentrações extremamente baixas, na ordem de fentogramas por mililitro, a Fumonisina B1 diminuiu os danos induzidos em leucócitos humanos. / Fungi produce several secondary metabolites, where many of these have been associated with the induction of toxic effects in animals and humans. The toxicological effect, including the carcinogenic, has been observed in more than 300 structurally known mycotoxins. Fumonisins are mycotoxins produced mainly by Fusarium verticillioides and Fusarium proliferatum, which often contaminate various foods, especially corn and its derivatives, leading to the appearance of pathological conditions in humans. Fumonisin B1 (FB1) is the most prevalent, accounting for approximately 70% of the total mycotoxicosis. This mycotoxin is associated with leukoencephalomalacia (LEM) in horses, pulmonary edema in pigs and hepatocarcinoma in rats, besides being related to the inhibition of sphingolipid biosynthesis and to the increasing risk of esophageal cancer in humans.The present study aimed to investigate the cytotoxic and genotoxic effects of fumonisin B1 through the cell viability and the cell proliferation test in human leukocyte culture. The tested concentrations tested were 200; 100; 50; 5; 0,5; 0,05; 0,005 μg/mL e 300; 30; 3; 1; 0,1; 0,01 fg/mL. All the tests were performed in triplicates,and it was used H2O2 4mM as a positive control, and PBS 7.4 bufferas a negative control. All concentrations tested were cytotoxic (p <0.05), except the 3fg/mL, 0,1fg/mL and 0,01fg/mL concentrations. Regarding to the genotoxicity test, except the 0.1fg/mL and 0.01fg/mL concentrations of, they demonstrated to significantly interfere in the cell proliferation. In an unprecedented way , it can be concludedthat only in extremely low concentrations, in the order of phentograms per milliliter, the Fumonisin B1 decreased the induced damage in human leukocytes.

CNPQ::CIENCIAS DA SAUDE

Fumonisina B1

Micotoxinas

Genotoxicidade

Citotoxicidade

Fumonisin B1

Mycotoxins

Genotoxicity

Genotoxicity

Cytotoxicity

Pharmaceutical Sciences

Ciências Farmacêuticas

Hazard screening of contaminated sites : bioavailable fractions and biological in vitro tools

Ragnvaldsson, Daniel

January 2007

The environmental bioavailability of contaminants, rather than their total concentrations in the soil compartment play a decisive role for the risks associated with contaminated sites. Various soil constituents and abiotic conditions have strong influence on bioavailability, which may vary substantially between different locations. It is therefore necessary to site-specifically use tools that reflect the fractions of contaminants that are available to biota and pose the highest potential environmental risks. Bioassays provide integrated toxic responses which include effects from unknown contaminants or combinatory toxic effects from mixtures of contaminants. Thus, biological effect data greatly contribute to establish more realistic exposure and risk-scenarios at contaminated sites. The work underlying this thesis presents possible techniques for high capacity screening for site-specific hazards at contaminated areas. By combining rapid water extractions and cell-based in vitro designs measures of the toxic potential in soils was obtained. Toxicologically bioavailable fractions of mixed metal pollution, including arsenic, were primarily investigated in this thesis. In two of the studies, environmental availability and toxicological bioavailability of arsenic was explored in CCA-contaminated soils. Application of cell-based in vitro screening techniques was also conducted at a metal contaminated industrial site to obtain spatial distribution of toxicity. Multivariate association techniques were employed in the interpretation of environmental exposure and cytotoxicity data. It was shown that cell-based in vitro systems for both basal cytotoxicity and specific end-points targeting arsenic could assess the toxic potential from extracts obtained by several water-based extraction techniques including Pressurised Liquid Extraction (PLE). The cell-based in vitro systems were found to add important information on the site-specific differences in arsenics genotoxic potential from CCA-contaminated soils. The results highlight the importance of taking speciation and toxicological bioavailability into account in the risk analysis, rather than to base risk estimates on total load of contaminants. The presented screening approach was successfully applied at a metal polluted industrial site where spatial distribution of toxicity was obtained. PLE extraction also provided means for combined toxicological and chemical screening of explosives in soils from live-fire training ranges. Multivariate association techniques highly facilitated the interpretation of complex environmental data. The PLE was found to be a rapid extraction technique that has sufficient environmental relevance to be used in environmental impact analyses. It was also concluded that other cell-based in vitro systems that target specific toxic effects have large potential for being used in screening for a variety of environmental chemicals. Keywords: Environmental availability, Environmental bioavailability, Toxicological bioavailability, mixture toxicity, hazard screening, contaminated soils, heavy metals, arsenic, CCA, explosives, soil extraction, water extracts, cell-based in vitro tests, cytotoxicity, genotoxicity, PLE, MVDA, PCA, PLS. / Föroreningars biotillgänglighet snarare än deras totala koncentration i markmiljön styr den risk som kan förknippas med förorenade områden. Biotillgängligheten är ofta långt från 100% p.g.a. en rad olika bindningsytor och processer i jorden som reducerar biotillgängligheten. Således kan biotillgängligheten variera kraftigt mellan olika förorenade platser och även inom samma plats till följd av de specifika förhållanden som råder på respektive plats. Tillämpning av biologiska indikatorer som ger ett mått på den samlade giftigheten från biotillgängliga föroreningar är därför viktiga verktyg i platsspecifika exponerings- och farobedömningar. Många biologiska tester är ofta laborativt intensiva och dyra och lämpar sig mindre väl i testning av ett stort antal prover vilket är önskvärt om en tillräcklig geografisk täckning ska uppnås över ett förenat område. Testsystem som har kapacitet att hantera många prover till en rimlig kostnad är därför mycket användbart för screening i ett inledande skede av en miljöriskanalys av ett förorenat område. Föreliggande avhandlingsarbete presenterar möjliga lösningar i att kombinera snabb vattenextraktionsmetodik med cellbaserade in vitro system för platsspecifik toxikologisk faroscreening av metallförorenade områden. Metodiken erbjuder hög kapacitet för många jordprover. Tillämpning av metodiken har gjorts mot huvudsakligen metallföroreningar, inklusive arsenik. I två delarbeten studerades två modelljordar från CCA-förorenade fastigheter avseende tillgänglighet och giftighet av framför allt arsenik. Vidare studerades om det med applicerad metodik gick att illustrera geografisk utbredning av toxicitet, mätt i cellbaserade in vitro system, som biotillgängliga föroreningar uppvisar på ett metallförorenat industriområde. Slutligen studerades lämpligheten i att använda PLE för kombinerad kemisk och toxikologisk screening av jordar från militära skjutfält som var förorenade med explosivämnen. Cellbaserade in vitro system för mätning av både generell toxicitet och mer specifika effektmarkörer för arsenik visade sig användbara vid mätning från flera vattenbaserade extraktionsmetoder, inklusive PLE (trycksatt vätskeextraktion). Resultaten visade på PLEs tillämplighet som en snabb extraktionsmetod med bibehållen relevans för miljöanalyser. Applikation av cellbaserade in vitro system på vattenextrakt från förorenad jord gav värdefull information bl.a. om platsspecifik genotoxisk potential där specieringen av arsenik hade avgörande betydelse i en fallstudie med CCA-förorenade jordar. Vattenextraktion av jordprover kombinerat med cellbaserade in vitro system kunde också ge en geografisk bild av den omedelbara faran från biotillgängliga metallföroreningar inom ett industriområde. Vattenextraktion med PLE visade sig även användbart för screening av explosivämnen där extrakten direkt kunde användas för såväl kemisk karakterisering som för toxikologisk analys. Även andra typer av in vitro system än de som användes i detta arbete har stor framtida potential för tillämpning i faroscreening av ett stort antal olika typer av miljöföroreningar.

Hazard screening

bioavailability

metal pollution

in vitro cytotoxicity

water extraction

CCA

arsenic genotoxicity

genotoxicity

Contaminated soil

Environmental chemistry

Miljökemi

Later-life Effects of Mitochondrial DNA Damage During Development in the Whole Organism Model Caenorhabditis elegans

Leung, Maxwell C.K.

January 2012

<p>Early life exposure to mitochondrial toxicants, including paraquat, rotenone, and manganese, has been hypothesized to promote early onset of genetic mitochondrial disorders as well as common degenerative diseases such as Parkinson's Disease and Alzheimer's Disease. This dissertation aimed to investigate the biochemical and physiological effects of early life exposure to mitochondrial genotoxicants during development in the whole organism model<i>C. elegans</i>. In the first experiment, a panel of model mammalian neurotoxicants and heavy metal ions was screened for mitochondrial genotoxicity by measuring mitochondrial DNA (mtDNA) copy number and damage in <i>C. elegans</i>. Exposures to paraquat, cumene hydroperoxide, rotenone, maneb, cadmium (II) chloride, and manganese (II) chloride have no significant effect on the mtDNA : nuclear DNA (nuDNA) ratio; only exposure to paraquat resulted in higher mtDNA than nuDNA damage level.In the second experiment, a laboratory method was developed to generate persistent mtDNA damage in larval <i>C. elegans</i> using serial ultraviolent C (UVC) exposures. While the mitochondrial DNA damage persisted from L1 to L4 stage, there was no difference between mitochondrial copy number of the control and UVC treated worms. The UVC treatment significantly inhibited both ATP level and oxygen consumption 24 and 48 hr after the exposure, while the mitochondrial mRNA expression was inhibited 3 hr after the exposure. The <i>pink-1</i> mutation, a mitochondrial serine/threonine-protein kinase involved in the mitophagy process, appeared to limit the growth inhibitory effect of UVC treatment and increase the mitochondrial DNA content of the organism. In the third experiment,larval <i>C. elegans</i> was exposed to UVC and paraquat and examined using differential interference contrast and fluorescence confocal microscopy. Both resulted in detectable, dose-dependent lesions in dopaminergic CEP neurons in adult <i>C. elegans</i>. Neither significant lesions in the GABAergic dorsal nerve cord nor any sign of pharyngeal necrosis were detected. This work demonstrated a mechanism in which early life exposure to mitochondrial genotoxicants could result in both biochemical and physiological changes in later stages of life, thereby highlighting the potential health hazard of time-delayed effects of these chemicals in the environment.</p> / Dissertation

Toxicology

Molecular biology

Environmental science

Caenorhabditis elegans

DNA damage

Genotoxicity

mitochondria

Toxicity evaluation and medical application of multi-walled carbon nanotubes

Zhou, Lulu

January 2015

Carbon nanotubes (CNTs) are of special interest to industry and they have been increasingly utilised as advanced nanovectors in drug/gene delivery systems. They possess significant advantages including high surface area, welldefined morphologies, unique optical property, superior mechanical strength and thermal conductivity. However, despite their unique and advanced physicochemical properties, the low compatibility of some of those materials [e.g. multiwalled CNTs (MWCNTs)] in most biological and chemical environments has also generated some serious health and environment concerns. Chemical functionalization broadens CNT applications, conferring new functions, and at the same time was found potentially altering toxicity. Although considerable experimental data related to functionalised CNT toxicity, at the molecular and cellular levels, have been reported, there is very limited information available for the corresponding mechanism involved (e.g. cell apoptosis, genotoxicity. The toxicity of carbon nanotubes has been confirmed on many cell lines including A549 (lung cancer cell line) and MRC-5 (lung fibroblasts). However, the sensitivity of each cell line in terms of cellular morphology, apoptosis and DNA damage are still unknown. In this report the different levels of cellular response to oxidative stress and phagocytosis have been investigated in A549, MCF-7 and MRC-5 cell lines to better understand the mechanisms of the toxicity pathway. siRNA as an ideal personalized therapeutics can specifically regulate gene expression, but efficient delivery of siRNA is difficult while it has been shown that MWCNTs protect siRNA, facilitate entry into cells. In this study, we comprehensively evaluated the in vitro cytotoxicity of pristine and functionalized (-OH, -COOH) multi-wall carbon nanotubes (MWCNTs), via cell viability test, reactive oxygen species (ROS) generation test, cell apoptosis and DNA mutation detection, to investigate the non-toxic dose and influence of functional group in A549, MCF-7 and MRC-5 cells exposed to 1-1000 μg/mL MWCNTs from 6 to 72 hours. In addition, 84 toxicity related genes have been detected to investigate the change of RNA regulation after treatment with MWCNTs. The research findings suggest that functionalized MWCNTs are more genotoxic compared to their pristine form, and the level of both dose and dispersion in the matrix used should be taken into consideration before applying further clinical applications of MWCNTs. Among all three cell lines, MCF-7 was the most sensitive to cell death and DNA damage induced by pristine carbon nanotubes. The majority of MCF-7 cell death was in necrotic. In A549 cells, apoptosis played a notable role in cytotoxicity. MRC-5 didn’t show significant cell loss or membrane damage, which might be explained by its low cell growth rate, notably however, a great reduction of the F-actin and attachment points was observed after treatment which indicates that MRC-5 cells are under very unhealthy condition and less attached to the bottom of flasks. Despite their toxicity, which is still being researched, carbon nanotubes have a great potential in clinical medicine. Thus, understanding the sensitivity of different cell lines could offer a more individualized approach for future treatment regimes. In regards to gene delivery, MWCNTs were found to be less toxic than chemical agents (positive control) without weakening the delivery efficiency, which proves that MWCNTs have a good potential in medicine area.

610.28

Impact d'une contamination au méthylmercure par voie alimentaire sur l'expression génétique, la bioénergétique, et la reproduction chez le poisson zèbre Danio rerio

Cambier, Sébastien

15 December 2009

Les effets de la contamination au méthylmercure chez le poisson zèbre Danio rerio ont été interrogés au sein de deux tissus, le muscle squelettique et le système nerveux central, dont le choix fut motivé par leur fort potentiel bioaccumulateur de cet organométallique. Après contamination par voie trophique, à un niveau d’exposition représentatif de ce qui peut advenir dans certains écosystèmes aquatiques, nos observations expérimentales indiquent que ce métal perturbe fortement le métabolisme mitochondrial dans les muscles, mais épargne celui du cerveau ; en outre, l’analyse de l’expression génique suggère une perturbation de l’homéostasie du calcium dans ces deux tissus. Dans le système nerveux central, parmi les synapses glutamatergique et GABAnergique, seule la voie métabolique du GABA semble montrer une adaptation face au MeHg. Concernant le muscle squelettique, l’analyse SAGE a permis d’appréhender les impacts du MeHg à l’échelle cellulaire, révélant également une perturbation de la synthèse protéique, l’induction d’un stress au niveau du reticulum endoplasmique ainsi que l’induction de plusieurs gènes impliqués dans les processus de détoxication et les voies de réponse générale au stress. Notre étude a également mis en évidence la surexpression du gène de la vitellogénine dans le muscle chez des poissons mâles désignant ainsi ce métal comme un perturbateur endocrinien. Enfin, nous avons également révélé une perturbation importante de l’éclosion des œufs associée à un transfert maternel de ce toxique. / The effects of methylmercury contamination on the zebrafish, Danio rerio, were assessed in two tissues, the skeletal muscle and the central nervous system, whose choice was motivated by their high potential to bioaccumulate this organometallic. After contamination by dietary, at a representative exposure level of which may arise in some aquatic ecosystems, our experimental observations indicate that metal strongly disrupts the mitochondrial metabolism in the muscles, but savings that the brain; in addition, the gene expression analysis suggests a disruption of the calcium homeostasis in these two tissues. In the central nervous system among glutamatergique and GABAnergique synapses, only the metabolic pathway of the GABA seems to show an adaptation to the MeHg. Concerning the skeletal muscle scanning SAGE analysis helped to understand the impacts of the MeHg at the cellular scale. It is also revealing a disruption of the protein synthesis, the induction of a stress at the endoplasmic reticulum level as well as the induction of several genes involved in detoxification process and general stress response. Our study has also highlighted the induction of the vitellogenin gene in the muscle of male fish designating this metal as an endocrine disruptor. Finally, we have also revealed a significant disruption of hatching eggs associated with maternal transfer of this toxic.

Méthylmercure

Reproduction

Danio rerio

Génotoxicité

Muscle

Bioénergétique

Cerveau

SAGE

Methylmercury

Danio rerio

Breeding

Genotoxicity

Bioenergetic

SAGE

Efeito do tamanho das nanopartículas de prata na indução de danos citotóxicos e genotóxicos nas linhagens celulares CHO-K1 e CHO-XRS5 / Effect of silver nanoparticles size in the induction of cytotoxic and genotoxic damage in CHO-K1 and CHO-XRS5 cell lines

Souza, Tiago Alves Jorge de

27 June 2013

Devido às características especiais as nanopartículas (10-9m) estão sendo utilizadas em uma ampla gama de produtos, porém é conhecido que a utilização dessas partículas podem causar efeitos biológicos adversos, aumentando a preocupação em relação à saúde e ao meio ambiente. Recentemente, as nanopartículas de prata (AgNPs) têm sido alvo de estudos genotóxicos e citotóxicos, sendo que ainda não existe um consenso acerca da relação entre tamanho e toxicidade dessas partículas. Assim, este trabalho avaliou a citotoxicidade e a genotoxicidade das AgNPs de 10 e 100 nm nas linhagens celulares CHO-K1 e CHO-XRS5, por meio do Ensaios de Viabilidade Celular, Sobrevivência Clonogênica, Teste do Micronúcleo, o Ensaio Cometa e Cinética do Ciclo Celular por Citometria de Fluxo. Em todos os ensaios, as células foram expostas por 24 h à diferentes concentrações de AgNPs (0,025 a 5,0 g/ml) e, as células não tratadas foram utilizadas como controle negativo. A concentração de 5,0 g/ml foi citotóxica nos ensaios de Viabilidade Celular e Sobrevivência Clonogênica, sendo excluída dos ensaios de genotoxicidade. De maneira geral, as células CHO-XRS5 apresentaram menor viabilidade e maior quantidade de danos no DNA do que as células CHO-K1. As AgNPs de 10 nm causaram maiores níveis de danos no DNA em ambas as linhagens e um aumento de células em subG1 logo após o tratamento na linhagem CHO-K1. Entretanto, no tempos 24 e 72 h após o tratamento foi verificada a maior toxicidade (células em subG1) das AgNPs de 100 nm quando comparadas com suas homólogas menores (10 nm). Assim, foi observado que as AgNPs de 10 nm apresentam efeito tóxico a curto prazo similar ou maior do que a mesma concentração de partículas de 100 nm. No entanto, os efeitos genotóxicos e citotóxicos de longo prazo das AgNPs de 100 nm foram maiores do que os da partículas de 10 nm para ambas as linhagens celulares, comprovando que a exposição às AgNPs maiores (100 nm) pode causar mais efeitos biológicos adversos do que suas homólogas menores (10 nm). / Due to their particular characteristics, nanoparticles (10-9m) are being used in a range of products. However, these particles can cause adverse biological effects and because of that, there is a great concern about the health and environmental risks related to the use of these particles. Recently, silver nanoparticles (AgNPs) have been used in a variety of cytotoxicity and genotoxicity studies, but there are still controversies regarding the association between the size and the toxicity of these particles. Thus, in this study, we aimed to evaluate the cytotoxicity and genotoxicity of AgNPS (10 and 100 nm) in two different cell lines, CHO-K1 and CHO-XRS5, by performing Cell Viability assay (XTT), Clonogenic assay, Micronucleus test, Comet assay, as well as by investigating the Cell Cycle kinetics using the flow cytometry. For all the different assays, the cell cultures were exposed for 24 hours to different concentrations of AgNPs (0.025 to 5.0 g/ml) and the untreated cells were used as the negative controls. Since results from the Viability and Clonogenic assays indicated that the concentration of 5.0 g/ml was cytotoxic for both cell lines, this concentration was not included in the genotoxic assays. Our results indicated that the CHO-XRS5 cells presented a lower viability and higher levels of DNA damage compared to the CHO-K1 cells. The 10 nm-AgNPs induced greater levels of DNA damage than the 100 nm-particles in both cell lines and the former also led to a subG1 arrest soon after the treatment only in the CHO-K1 cell line. In contrast, results from all the other assays indicated that greater levels of toxicity were induced by the 100 nm-AgNPs when compared to the 10 nm-particles, both 24 and 72 h after the treatment. Thus, at the same concentration, the short-term effects of the 10 nm-AgNPs were equal to or more toxic than those of the 100 nm-particles. Nevertheless, both long-term genotoxicity and cytotoxicity induced by the 100 nm-AgNPs were greater than those induced by the 10 nm-particles for both cell lines, which suggests that the exposure to greater size particles (100 nm) can cause more adverse biological effects than the exposure to the smaller particles(10 nm).

Citotoxicidade

Comet assay

Cytotoxicity

Ensaio cometa

Genotoxicidade

Genotoxicity

Micronucleus assay

Nanopartículas de prata

Silver nanoparticles

Teste do micronúcleo

Avaliação da citotoxicidade, genotoxicidade e mutagenicidade da mandioca (Manihot esculenta Crantz) em célula tumoral HepG2 / Assessment of Cytotoxicity, genotoxicity and mutagenicity of cassava (Manihot esculenta Crantz) in HepG2 cells

Oliveira, Rita de Cássia Silva de

31 July 2012

O fator alimentar pode ser considerado um promotor tumorigênico responsável pela etiologia do câncer gástrico no estado do Pará. A mandioca (Manihot esculenta Crantz) é uma das muitas espécies da Amazônia consumida de modo indiscriminado pelos habitantes da região norte. O cianeto, seu principal componente tóxico, pode ser liberado durante o processamento da mandioca por meio da hidrólise do glicosídeo cianogênico linamarina. No organismo, o cianeto bloqueia a cadeia de transporte de elétrons inibindo a respiração celular e, provocando, entre outras coisas, a produção de radicais livres que podem agir no DNA, através da formação de adutos exocíclicos. O objetivo deste trabalho foi a avaliação da atividade citotóxica, genotóxica e mutagênica de folhas e tucupi, crus e cozidos, de mandioca mansa e brava, usando os ensaios do MTT, cometa e citoma em células HepG2. Os resultados obtidos demonstraram que a viabilidade celular decai à medida que a concentração aumenta na maioria dos grupos de tratamento. No ensaio do cometa, a análise visual demonstrou que o cianeto de potássio, usado como padrão, foi genotóxico em todas as concentrações testadas (5,0; 15,0 e 25,0 ?g/mL). As amostras de folhas de mandioca brava foram genotóxicas somente nas concentrações 15,0 e 25,0 ?g/mL (cruas) e 5,0; 15,0 e 25,0 ?g/mL (cozidas). As amostras de mandioca mansa foram genotóxicas apenas quando cozidas (5,0 e 25,0 ?g/mL). Já as amostras de tucupi, tanto cruas quanto cozidas, demonstraram dano ao DNA de células HepG2 em todas as concentrações testadas (20,0; 40,0 e 60.0 ?g/mL). Utilizando análise de fragmentação de DNA observamos que o cianeto de potássio foi genotóxico apenas na avaliação da porcentagem de DNA na cauda. Já amostras de mandioca brava e mansa, de maneira geral, demonstraram valores de porcentagem de DNA na cauda, tail moment e olive moment maiores em relação ao grupo controle negativo, mas, somente as folhas de mandioca, em algumas concentrações, demonstraram valores estatisticamente significativos. Observando o ensaio do citoma, as concentrações de folhas e tucupi, crus e cozidos, tanto de mandioca brava quanto de mandioca mansa mostraram um discreto aumento no número de micronúcleos em células HepG2 binucleadas, estatisticamente não significativo, em relação ao grupo controle negativo. Já o número de pontes nucleoplasmáticas e brotos nucleares foi menor que no grupo controle. Os danos aqui observados pelo ensaio do cometa podem estar transitoriamente presentes ii como intermediários formados durante o reparo de lesões no DNA. A ausência de brotos nucleares, pontes nucleoplasmáticas e resultados estatísticos significativos em relação ao grupo controle negativo, não nos permitem afirmar presença de mutagenicidade em células HepG2 tratadas com mandioca tanto brava quanto mansa. De maneira geral, o cozimento das amostras não foi um fator determinante na diminuição do dano observado em células HepG2. Nossos resultados confirmam apenas citotoxicidade e genotoxicidade das variedades da mandioca nas concentrações e sistema celular utilizados. Os mecanismos moleculares que envolvem a genotoxicidade da mandioca requerem estudos futuros. Para o consumo da mandioca devem ser levados em consideração tipo de processamento realizado para extração de compostos cianogênicos, níveis de glicosídeos cianogênicos nos produtos consumidos, quantidade de mandioca consumida e estado nutricional do consumidor / The food factor can be considered a tumor causing agent reponsasible for the etiology of gastric cancer in the state of Pará Cassava ( Manihot esculenta Crants is one of the many food species of the Amazon indiscriminately consumed by the inhabitants of the northern region Cyanide, its main toxic component, can be released during cassava processing through the hydrolysis of the cyanogenic glycoside linamarin. In the body, cyanide blocks the electron transport chain by inhibiting cell respiration which brings about, among other things, the production of free radicals which can act upon DNA through the formation of exocyclical adducts. The main goal of this study was the assessment of the citotoxic, genotoxic and mutagenic role of the leaves and tucupi juice of wild and sweet cassava, both raw and cooked, using the MTT, comet and cytome assays in HepG2 cells. The results gathered have shown that cell viability decreases as the concentration increases in most treatment groups. In the comet assay, a visual analysis has shown that potassium cyanide, used as a standard, was genotoxic in all concentrations tested (5.0, 15.0 and 25.0 ?g/mL). Samples of wild cassava leaves were genotoxic only in concentrations of 15.0 and 25.0 ?g/mL for raw leaves, and 5.0, 15.0 and 25.0 ?g/mL for cooked leaves. Samples of sweet cassava leaves were genotoxic only when cooked (5.0 and 25.0 ?g/mL). Yet, samples of tucupi juice, both raw and cooked, have shown damage to DNA in HepG2 cells at all concentrations tested (20.0, 40.0 and 60.0 ?g/mL). In performing DNA fragmentation analysis, it was observed that potassium cyanide was genotoxic only in the assessment of percentage DNA in tail. Whereas the wild and sweet cassava samples, in a general fashion, have shown greater values of percentage DNA in tail, tail moment and olive moment than the negative control group, but only the cassava leaves revealed statistically significant values, in some concentrations. For the cytome assay, concentrations of leaves and of tucupi juice, raw and cooked, of both wild and sweet cassava, have shown a slight increase in the number of micronuclei in binucleated HepG2 cells, not statistically significant as compared to the negative control group. On the other hand, the number of nucleoplasmic bridges and nuclear buds in binucleated cells was lower than the value found in the negative control group. The damages verified herein by the comet assay may be transiently present as intermediates formed during repair of DNA lesions. The absence of iv nucleoplasmic bridges, nuclear buds and of statistically significant results vis-à-vis the negative control group do not warrant the assertion for the presence of mutagenicity in HepG2 cells treated with either wild or sweet cassava. In general, the cooking of the samples was not determining factor of the decrease in damage observed in HepG2 cells. Our results only confirm cytotoxicity and genotoxicity of wild and sweet cassava species in the concentrations and cell system used. The molecular mechanisms involving genotoxicity of cassava require further studies. For the consumption of cassava, the way of processing performed for extracting cyanogen contents, the levels of cyanogenic glycosides in the products consumed, amount of cassava consumed as well as the nutritional condition of the consumer must be taken into account.

Cassava

Celulas HepG2.

Cianeto

Citotoxicidade

Citotoxicity

Cooking

Cozimento

Cyanide

Genotoxicidade

Genotoxicity

HepG2 cells.

Mandioca

Mutagenicidade

Mutagenicity

Avaliação dos efeitos da curcumina sobre a hepatotoxicidade induzida pelo mercúrio em células humanas HepG2 / Evaluation of the effects of curcumin on the hepatotoxicity induced by mercury in human HepG2 cells

Pinto, Fabio Henrique Villa

10 June 2015

O mercúrio é um dos metais mais nocivos presentes no ambiente, advindo tanto de fontes naturais quanto antropogênicas. Os indivíduos estão expostos a diferentes formas do mercúrio através de diversas vias, como a alimentação, principalmente no caso do metilmercúrio presente em peixes. Suas formas orgânicas são muito significativas do ponto de vista toxicológico, considerando-se a exposição da população e seus efeitos pró-oxidantes e genotóxicos envolvidos na origem de inúmeras doenças. Por outro lado, é suposto que compostos polifenólicos e outros antioxidantes da dieta podem exercer atividade protetora contra os efeitos deletérios do mercúrio. A curcumina é um pigmento amarelo polifenólico extraído do rizoma da planta Curcuma longa Linn (Zingiberaceae). Diversas evidências apontam para suas propriedades antioxidantes, de modulação da sinalização celular e alteração da expressão gênica, além da possibilidade de sua utilização na prevenção dos efeitos deletérios dos metais no organismo. Assim sendo, este trabalho teve por objetivo avaliar os efeitos da associação entre o mercúrio e a curcumina, investigando a citotoxicidade de dois compostos orgânicos de mercúrio, metilmercúrio e etilmercúrio, e da curcumina, de forma isolada e combinada, em células HepG2, utilizando o ensaio do MTT. A genotoxicidade desses mesmos compostos também foi avaliada por meio do ensaio do cometa. Além disso, a alteração no estado oxidativo das células pela razão de glutationa (GSH/GSSG) e a alteração na expressão de 84 genes relacionados com vias de dano e reparo no DNA, utilizando-se de PCR-Array, também foram avaliados. Os compostos orgânicos de mercúrio apresentaram citotoxicidade em concentrações iguais ou maiores que 16 ?M. A curcumina apresentou citotoxicidade apenas na concentração de 128 ?M. Nos experimentos de associação entre o mercúrio e a curcumina foi observado um aumento da citotoxicidade, entre a concentração de 8 ?M das duas formas de mercúrio e a concentração de 64 ?M de curcumina. Na avaliação da genotoxicidade foi observado um efeito genotóxico significativo do metilmercúrio nas concentrações de 8, 16 e 32 ?M, enquanto o etilmercúrio apresentou genotoxicidade significativa apenas na concentração de 32 ?M. A curcumina não apresentou genotoxicidade. Na associação dos compostos não foi detectada ação antigenotóxica da curcumina e houve um aumento na genotoxicidade do metilmercúrio em associação com a concentração de 32 ?M de curcumina. A razão de glutationa mostrou um aumento significativo nas células tratadas com metilmercúrio, entretanto isso não foi observado quando o metilmercúrio foi associado com a curcumina. A análise da expressão de 84 genes relacionados com danos no DNA por PCR-Array mostrou alteração na expressão de 26 genes, sendo que 3 deles tiveram aumento na expressão, DDIT3, GADD45A e PPP1R15A, relacionados principalmente com o bloqueio do ciclo celular e o processo de apoptose, e 23 genes tiveram sua expressão reduzida, relacionados com diversas vias de reparo do DNA, checkpoints do ciclo celular e apoptose. Os resultados obtidos indicam que, nas condições avaliadas, a associação da curcumina com o mercúrio aumentou os efeitos deletérios do metal, causando um aumento na citotoxicidade e na genotoxicidade do mercúrio, não se caracterizando como uma possível estratégia de prevenção dos efeitos deletérios do mercúrio / Mercury is one of the most harmful metals present in the environment arising from both natural and anthropogenic sources. The individuals are exposed to different forms of mercury through various sources, such as food, especially in the case of methylmercury in fish, with this organic forms being very significant from a toxicological point of view, considering the exposure of the population and its pro-oxidant and genotoxic effects, involved in the origin of many diseases. On the other hand it is assumed that polyphenolic compounds and other dietary antioxidants can have protective activity against the harmful effects of mercury. Curcumin is a polyphenol extracted from the rhizome of Curcuma longa Linn. (Zingiberaceae). Several evidences show its ability to act as an antioxidant, modulate cell signaling and gene expression, and the possibility of its use in chemoprevention of the deleterious effects of metals. Therefore, this study aimed to evaluate the effects of the association between mercury and curcumin, investigating the cytotoxicity of two organic compounds of mercury, methylmercury and ethylmercury, and curcumin, alone and in combination, in HepG2 cells using the the MTT assay, the genotoxicity of these same compounds through the comet assay, the changes in oxidative state of the cells by the concentration of glutathione and GSH/GSSG ratio and the changes in the expression of 84 genes related to DNA damage anda repair pathways by PCR-Array. Organic mercury compounds showed cytotoxicity at concentrations equal to or greater than 16 uM. Curcumin only showed cytotoxicity at the concentration of 128 ?M. There was an increase in cytotoxicity when mercury (8 ?M) was associated with curcumin (64 ?M). In the genotoxicity assay there was a significant genotoxic of methyl mercury at concentrations of 8, 16 and 32 ?M while ethyl mercury whas genotoxic only at 32 ?M. Curcumin was not genotoxic. There was no anti-genotoxic activity in the association of compounds and there was an increase in genotoxicity of MeHg in association with 32 ?M of curcumin. The quantification of glutathione (GSH/GSSG) showed a significant increase in the GSH/GSSG ratio in cells treated with MeHg, however this was not observed when MeHg was associated with curcumin. Gene expression analysis showed changes in the expression of 26 genes, 3 of them were upregulated, DDIT3, GADD45A and PPP1R15A, mainly related to the cell cycle blockage and apoptosis, and 23 genes were down-regulated, related with DNA repair, cell cycle checkpoints and apoptosis. These results indicate that the combination of curcumin with mercury increased the deleterious effects of the metal, causing an increase in cytotoxicity and genotoxicity of mercury, and do not represent a possible strategy to prevent the harmful effects of mercury.

composto polifenólico

curcumin

curcumina

expressão gênica

gene expression

genotoxicidade

genotoxicity

mercúrio

mercury

nutrigenômica

nutrigenomics

polyphenolic compounds