Análise da integridade genômica por meio do ensaio cometa e teste do micronúcleo em células-tronco mesenquimais derivadas do tecido adiposo

Pós-graduação em Biociências - FCLAS

Bioestimulação de célula-tronco mesenquimal de rato sob ação da luz contínua e pulsátil de 630 nm utilizando LED

Fundação de Amparo à Pesquisa do Estado de São Paulo (FAPESP)

Micronucleus frequency in children exposed to biomass burning in the Brazilian Legal Amazon region: a control case study

Background: The Amazon represents an area of 61% of Brazilian territory and is undergoing major changes resulting from disorderly economic development, especially the advance of agribusiness. Composition of the atmosphere is controlled by several natural and anthropogenic processes, and emission from biomass burning is one with the major impact on human health. The aim of this study was to evaluate genotoxic potential of air pollutants generated by biomass burning through micronucleus assay in exfoliated buccal cells of schoolchildren in the Brazilian Amazon region. Methods: The study was conducted during the dry seasons in two regions of the Brazilian Amazon. The assay was carried out on buccal epithelial cells of 574 schoolchildren between 6-16 years old. Results: The results show a significant difference between micronucleus frequencies in children exposed to biomass burning compared to those in a control area. Conclusions: The present study demonstrated that in situ biomonitoring using a sensitive and low cost assay (buccal micronucleus assay) may be an important tool for monitoring air quality in remote regions. It is difficult to attribute the increase in micronuclei frequency observed in our study to any specific toxic element integrated in the particulate matters. However, the contribution of the present study lies in the evidence that increased exposure to fine particulate matter generates an increased micronuclei frequency in oral epithelial cells of schoolchildren.

Nuclear abnormalities in erythrocytes and morphometric indexes in the catfish Cathorops spixii (Ariidae) from different sites on the southeastern Brazilian coast

Nuclear abnormalities in erythrocytes (NAE) were taken as biomarkers in the catfish Cathorops spixii (Ariidae) sampled in an estuary little affected by human activity (Cananeia) and in three regions (Santos Channel: SC, Santos Bay: SB and Sao Vicente Channel: SVC) of the Santos-Sao Vicente estuary impacted by various anthropogenic activities. Increases in NAE were observed in fish from SC and SVC sampled in the summer period as compared with specimens from the Cananeia estuary. These results suggest the presence of genotoxic compounds in these regions. However, the absence of significant differences in micronuclei frequency reflects slight mutagenic effects in these individuals. It is possible that the lower NAE frequency in specimens from SB might be associated with the greater remobilization and dilution of chemicals in this region. The low frequency of NAE in C. spixii from the Cananeia estuary is in accordance with the slight anthropogenic influence in this system, and may be suggestive of the absence of genotoxic and mutagenic effects in these organisms.

Genotoxic and mutagenic effects of erythrosine B, a xanthene food dye, on HepG2 cells

Erythrosine (ErB) is a xanthene and an US Food and Drug Administration approved dye used in foods, drugs and cosmetics. Although its utilization is permitted, ErB is described as inhibitor of enzymes and protein-protein interactions and is toxic to pituitary and spermatogenesis processes. However, the genotoxicity and mutagenicity of ErB is inconclusive in the literature. This study aimed to analyze the genotoxicity of this dye using the alkaline comet assay and is the first investigation to evaluate ErB mutagenicity using the cytokinesis block micronucleus cytome (CBMN-Cyt) assay in HepG2 cells. These cells were chosen because they produce phase I and phase II enzymes that can mimic in vivo metabolism. The cells were treated with seven concentrations (0.1-70.0 mu g mL(-1)) of ErB, and the results showed genotoxicity at the two highest concentrations and mutagenicity at six concentrations. Furthermore, as micronuclei result from clastogenic and aneugenic processes, while comet assay is often considered more sensitive and detects DNA single strain breaks, we suggest that an aneugenic is responsible for the observed damage. Although ErB is approved for use in the food, cosmetic and pharmaceutical industries, it must be used carefully because it damages the DNA structure. (C) 2012 Elsevier Ltd. All rights reserved.

Comparative study of beta-carotene and microencapsulated beta-carotene: Evaluation of their genotoxic and antigenotoxic effects

beta-Carotene (BC) is one of the natural pigments that is most commonly added to food; however, the utilization of BC is limited due to its instability. Microencapsulation techniques are commonly used because they can protect the microencapsulated material from oxidization. Nevertheless, the properties of the encapsulated compounds must be studied. We compared the antigenotoxic potential of pure and microencapsulated beta-carotene (mBC) in Wistar rats. Two doses of BC or mBC (2.5 or 5.0 mg/kg) were administered by gavage over a period of 14 days. The final gavage was followed by an injection of doxorubicin (DXR). After 24 h the animals were euthanized. The micronucleus test results showed that when both mBC and DXR were given, only the higher dose was antigenotoxic. The results of the comet assay show that when given in association with DXR, mBC had protective effects in the liver. The differences between the results obtained with BC and mBC suggest that possibly the carotenoid biodisponibility was modified by the process of microencapsulation. In conclusion, mBC does not lose its protective properties, but higher doses must be used to observe antigenotoxic effects. This is the first time that the genotoxicity and antigenotoxicity of a microencapsulated compound was evaluated in vivo. (C) 2012 Elsevier Ltd. All rights reserved.

Protective effect of bixin on cisplatin-induced genotoxicity in PC12 cells

Bixin is the main carotenoid found in annatto seeds (Bixa orellana L.) and is responsible for their reddish-orange color. The antioxidant properties of this compound are associated with its ability to scavenge free radicals, which may reduce damage and protect tissues against toxicity caused by anticancer drugs such as cisplatin. In this study, the genotoxicity and antigenotoxicity of bixin on cisplatin-induced toxicity in PC12 cells was assessed. Cytotoxicity was evaluated using the mu assay, mutagenicity, genotoxicity, and protective effect of bixin were evaluated using the micronucleus test and comet assay. PC12 cells were treated with bixin (0.05, 0.08, and 0.10 mu g/mL), cisplatin (0.1 mu g/mL) or a combination of both bixin and cisplatin. Bixin was neither cytotoxic nor genotoxic compared to the controls. In the combined treatment bixin significantly reduced the percentage of DNA in tail and the frequency of micronuclei induced by cisplatin. This result suggests that bixin can function as a protective agent, reducing cisplatin-induced DNA damage in PC12 cells, and it is possible that this protection could also extend to neuronal cells. Further studies are being conducted to better understand the mechanisms involved in the activity of this protective agent prior to using it therapeutically. (C) 2011 Elsevier Ltd. All rights reserved.

Baccharin Prevents Genotoxic Effects Induced by Methyl Methanesulfonate and Hydrogen Peroxide in V79 Cells

Baccharin is one of the major chemical compounds isolated from the aerial parts of Baccharis dracunculifolia DC (Asteraceae), a native plant of South America and the most important botanical source of the Brazilian green propolis that has been used in alternative medicine to treat inflammation, liver disorders, and stomach ulcers. The present study was carried out in V79 cells to determine the possible genotoxic and antigenotoxic activities of baccharin utilizing comet and micronucleus assays, where 2 known mutagenic agents with different mechanisms of DNA damage were used as positive controls. The V79 cells were treated with concentrations of baccharin (0.25, 0.5, 1.0, and 2.0 mu g/mL) and for to investigate the antigenotoxicity these concentrations were associated with methyl methanesulfonate (MMS; 200 mu M-comet assay and 400 mu M-micronucleus assay) or hydrogen peroxide (H2O2; 50 mu M-comet assay and 100 mu M-micronucleus assay). Statistically significant differences in the rate of DNA damage were observed in cultures treated with the highest concentration of baccharin when compared to the control group, but this difference was not found in the micronucleus assay. The results also showed that the frequencies of DNA damage and micronuclei induced by MMS and H2O2 were significantly reduced after treatment with baccharin. The baccharin showed a chemoprevention effect and can be the chemical compound responsible for the antigenotoxicity also demonstrated by the B. dracunculifolia. The antioxidant potential of baccharin may be related to its chemoprevention activity induced against both genomic and chromosomal damages.

Nuclear abnormalities in erythrocytes and morphometric indexes in the catfish Cathorops spixii (Ariidae) from different sites on the southeastern Brazilian coast

Nuclear abnormalities in erythrocytes (NAE) were taken as biomarkers in the catfish Cathorops spixii (Ariidae) sampled in an estuary little affected by human activity (Cananéia) and in three regions (Santos Channel: SC, Santos Bay: SB and São Vicente Channel: SVC) of the Santos-São Vicente estuary impacted by various anthropogenic activities. Increases in NAE were observed in fish from SC and SVC sampled in the summer period as compared with specimens from the Cananéia estuary. These results suggest the presence of genotoxic compounds in these regions. However, the absence of significant differences in micronuclei frequency reflects slight mutagenic effects in these individuals. It is possible that the lower NAE frequency in specimens from SB might be associated with the greater remobilization and dilution of chemicals in this region. The low frequency of NAE in C. spixii from the Cananéia estuary is in accordance with the slight anthropogenic influence in this system, and may be suggestive of the absence of genotoxic and mutagenic effects in these organisms.

Emissions generated by sugarcane burning promote genotoxicity in rural workers: a case study in Barretos, Brazil

Abstract Background To determine the possible genotoxic effect of exposure to the smoke generated by biomass burning on workers involved in manual sugar cane harvesting. Methods The frequency of micronuclei in exfoliated buccal cells and peripheral blood lymphocytes was determined in sugarcane workers in the Barretos region of Brazil, during the harvest season and compared to a control population, comprised of administrative employees of Barretos Cancer Hospital. Results The frequency of micronuclei was higher in the sugar cane workers. The mean frequency in blood lymphocytes (micronuclei/1000 cells) in the test group was 8.22 versus 1.27 in the control group. The same effect was observed when exfoliated buccal cells were considered (22.75 and 9.70 micronuclei/1000 cells for sugar cane workers and controls, respectively). Conclusion Exposure to emissions produced by the burning of sugar cane during harvesting induces genomic instability in workers, indicating the necessity of adopting more advanced techniques of harvesting sugar cane to preserve human health.

Einfluss von Stickstoffmonoxid, Hydroxylradikalen und Peroxynitrit auf DNA-Schäden, DNA-Reparatur und Mutationen

Im Rahmen dieser Arbeit wurde untersucht über welche Mechanismen und unter welchen Bedingungen Stickstoffmonoxid (NO) und verwandte reaktive Spezies wie Peroxynitrit und Hydroxylradikale zur Krebsentstehung beitragen können. NO führte an zellfreier DNA kaum zu oxidativen DNA-Schäden. Peroxynitrit, generiert aus 3-Morpholinosydnonimin (SIN-1), induzierte neben Einzel-strangbrüchen und AP-Läsionen vor allem oxidierte Purinmodifikationen (50 % 8-Hydroxyguanin (8-oxoG)). Hydroxylradikale, freigesetzt aus 4-Hydroxypyridinthion, induzierten neben Einzelstrangbrüchen und AP-Läsionen oxidierte Pyrimidinmodifikationen in der DNA. Nach Transformation und Replikation der geschädigten DNA in E. coli DT-2 wurden überwiegend GC nach AT Transitionen (Hydroxylradikalschädigung), wahrscheinlich verursacht durch das in der DNA induzierte 5-Hydroxycytidin, bzw. GC nach TA Transversionen (Peroxynitrit), verursacht durch das induzierte 8-oxoG, detektiert. In Zellkulturexperimenten führte endogenes NO, freigesetzt von B6-INOS-Zellen (8µM) nicht zu einem Anstieg der Gleichgewichtsspiegel oxidativer DNA-Schäden, hatte keinen Einfluss auf deren Induzierbarkeit und Reparatur, die Zellpro-liferation und den Glutathionspiegel, schützte jedoch vor der Induktion von Einzelstrangbrüchen und Mikrokernen durch Wasserstoffperoxid. Exogenes NO, freigesetzt durch den Zerfall von Dipropylentriamin-NONOat, hemmte in Konzentrationen ab 0,5 mM spezifisch die Reparatur oxidativer DNA-Schäden, nicht jedoch die von Pyrimidindimeren, AP-Läsionen und Einzelstrangbrüchen,und führte in Konzentrationen > 1 mM zu einer Induktion von DNA-Schäden in den B6-Mausfibroblasten. Dabei ähnelte das induzierte Schadensprofil sehr dem von SIN-1.

Bedeutung endogener und exogener Quellen reaktiver Sauerstoffspezies für die Entstehung des malignen Melanoms

Bedeutung endogener und exogener Quellen reaktiver Sauerstoffspezies für die Entstehung des malignen Melanoms Um zu überprüfen, ob reaktive Sauerstoffspezies (ROS) an der Entstehung des malignen Melanoms ursächlich beteiligt sind, wurde in dieser Arbeit der Einfluss von Mitochondrien als endogener und Licht als exogener ROS-Quelle untersucht.Nach Bestrahlung mit Licht (Halogenlampe 1000 W, 1125 kJ/m² zwischen 400-800 nm) reagierten M8,99-Melanomzellen sensitiver mit der Bildung oxidativer DNA-Basenmodifikationen als Hautfibroblasten des gleichen Melanompatienten. In einer anderen Melanomzelle (M2/02) war ein klarer Reparaturdefekt oxidativer DNA-Schäden zu beobachten. Bei viermaliger Bestrahlung mit Licht im Abstand von zwei Stunden (je 450 k/m²) nahm die Zahl induzierter oxidativer DNA-Modifikationen und Mikrokerne stetig zu. Durch Mehrfachbestrahlung mit Kantenfilter (? > 395 nm) konnte gezeigt werden, dass ein Teil der Mikrokerne im Bereich sichtbaren Lichts entsteht. Mitochondrien könnten als endogene Hauptquelle für ROS an der Entstehung oxidativer DNA-Modifikationen und des malignen Melanoms beteiligt sein. Die Abwesenheit der mitochondrialen Atmungskette bewirkte in dieser Arbeit eine nachhaltige Abnahme der intrazellulären ROS-Bildung bzw. ihre Stimulation durch mitochondriale Gifte eine starke Zunahme. Da in beiden Fällen kein Effekt auf die Zahl der oxidativen DNA-Modifikationen zu beobachten war, kann die mitochondriale ROS-Produktion nicht auf diesem Weg zur Melanom-Entstehung beitragen.

Untersuchungen zum Mechanismus der zellulären und zellfreien DNA-Schädigung durch photosensibilisierende Arzneistoffe

Einige Arzneistoffe verursachen unter dem Einfluss von Sonnenlichtstrahlung folgenschwere Hautveränderungen. In der Arbeit wurden für sechs Photosensibilisatoren erstmals „Fingerabdrücke“ des zellfreien und zellulären photoinduzierten DNA Schadens in Form von Schadensprofilen erstellt. Untersucht wurden das Phenothiazin Chlorpromazin, sowie dessen Derivate 2-Hydroxypromazin, Chlorpromazinsulfoxid und Promazin; die Fluorchinolone Ciprofloxacin und Lomefloxacin; sowie Doxycyclin und Methylenblau unter Bestrahlung mit künstlich erzeugtem Sonnenlicht. Neben Strangbrüchen in der DNA konnten durch den Einsatz von spezifischen DNA-Reparaturendonukleasen als Sonden die Mengen an oxidativen Purinmodifikationen, oxidative Pyrimidinmodifikationen und abasische Stellen bestimmt werden. Durch Verwendung von modulierenden Zusätzen wurde die Beteiligung von reaktiven Sauerstoffspezies überprüft. Besonders bei den Phenothiazinen zeigten sich Besonderheiten hinsichtlich der DNA-Schädigung. Promazin induziert unter Photoaktivierung, vermutlich über einen reduktiven Angriff an der DNA, eine hohe Anzahl sonst selten beobachteter Läsionen, nämlich abasischen Stellen und Dihydropyrimidine. Photoaktiviertes Chlorpromazin konnte in Zellen unerwarteterweise wahrscheinlich über die Reaktion von Photolyseprodukten mit einem endogenen Chromophor sonnenlichtinduzierte oxidative DNA-Modifikationen verhindern. Eine Schädigung zellfreier DNA fand nur statt, wenn der Photosensibilisator im Überschuss gegenüber den DNA-Basenpaaren vorlag, vermutlich weil ansonsten die Photolyse des Chlorpromazins durch Interkalation in die DNA verhindert wurde. Fluorchinolone zeigten eine starke Generierung von DNA-Strangbrüchen in Zellen, welche möglicherweise auf photoinduzierte Reaktionen der Arzneistoffe mit der eukaryotischen Topoisomerase zurückzuführen ist. Die Korrelation der gemessenen DNA-Schäden mit der Mikrokerninduktion führte zu der Annahme, dass besonders abasische Stellen bei der Entstehung von Mikrokernen eine Rolle spielen könnten.

Charakterisierung der Proteine CEP164 und ppdpf sowie deren Einordnung in den mitotischen Kontext

Eine regelgerechte bipolare Mitose und die fehlerfreie Aufteilung duplizierter DNA ist die Voraussetzung für die Entwicklung aller Lebewesen. Treten Fehler bei diesem grundsätzlichen Prozess auf, ist entweder der Zelltod oder die maligne Entartung der Zelle die Folge. Daher ist es von zentraler Bedeutung, die Vorgänge während der Zellteilung zu verstehen und die Funktion der an diesem Prozess beteiligten Proteine aufzudecken. Im Vorfeld dieser Arbeit wurden im Rahmen eines siRNA-Screens genomweit alle Proteine durch RNA-Interferenz depletiert und die Mitosen nach erfolgter RNAi phänotypisch untersucht. Ein besonderes Augenmerk lag dabei auf der Entwicklung multipolarer Spindeln durch Defekte in der Zentrosomenbündelung. Dadurch wurden unter anderem die Proteine CEP164 und ppdpf identifiziert. Da weder für CEP164 noch für ppdpf mitotische Funktionen bekannt sind, war es Ziel dieser Arbeit, die beiden Proteine eingehender zu charakterisieren und in den Kontext der Mitose einzuordnen. rnIm Rahmen der vorliegenden Arbeit konnte gezeigt werden, dass CEP164 einer komplexen mitotischen Regulation unterliegt. Die in Interphase durchweg zentrosomale Lokalisation von CEP164 geht in der Mitose verloren. Es wird demonstriert, dass CEP164 während der Mitose unter anderem von CDK1 phosphoryliert wird und des Weiteren ubiquitinyliert wird. Als Interaktionspartner wurde das zentrosomale Protein Ninein identifiziert und demonstriert, dass sich CEP164 mit diesem in einem Komplex von ~2MDA befindet. Als weiterer Interaktionspartner wurde das Ninein-like-Protein ermittelt. Im Hinblick auf die Induktion multipolarer Mitosen wurde gezeigt, dass die Depletion von CEP164 nicht dafür verantwortlich ist. Die Induktion multipolarer Spindeln ist stattdessen darin begründet, dass durch die Transfektion einer siRNA gegen CEP164 auch ein für die Ausbildung der mitotischen Spindel elementares Protein, Ch-TOG, depletiert wird.rnIm Gegensatz dazu wurde im Rahmen dieser Arbeit bestätigt, dass das Protein ppdpf eine wichtige mitotische Funktion übernimmt. Zwar führt die Depletion von ppdpf nur zu einer sehr geringen Zunahme multipolarer Mitosen, allerdings steigt die Zahl aberranter Mitosen deutlich an, während die Spannung innerhalb mitotischer Spindeln abnimmt. Desweiteren konnte nachgewiesen werde, dass ppdpf-RNAi die Entwicklung von „lagging chromosomes“ und nachfolgend von Mikrokernen begünstigt. Es wurde gezeigt, dass ppdpf während der Mitose an Spindelmikrotubuli lokalisiert und spezifisch acetyliertes Tubulin bindet. Diese Interaktion hatte allerdings keinen Einfluss auf die Stabilität von Mikrotubuli während der Mitose. Das Protein ppdpf interagiert zudem mit dem Kinesin Eg5, wobei ppdpf-RNAi allerdings nicht zu einer Modulation der Aktivität von Eg5 zu führen scheint. Inwiefern diese Eigenschaften die Entwicklung von „lagging chromosomes“ begünstigen ist derzeit noch offen.

Impact of anthropogenic stressors on the population genetics of the common bioindicator Dreissena polymorpha (Pallas, 1771)

Toxicant inputs from agriculture, industry and human settlements have been shown to severely affect freshwater ecosystems. Pollution can lead to changes in population genetic patterns through various genetic and stochastic processes. In my thesis, I investigated the impact of anthropogenic stressors on the population genetics of the zebra mussel Dreissena polymorpha. In order to analyze the genetics of zebra mussel populations, I isolated five new highly polymorphic microsatellite loci. Out of those and other already existing microsatellite markers for this species, I established a robust marker set of six microsatellite loci for D. polymorpha. rnMonitoring the biogeographical background is an important requirement when integrating population genetic measures into ecotoxicological studies. I analyzed the biogeographical background of eleven populations in a section of the River Danube (in Hungary and Croatia) and some of its tributaries, and another population in the River Rhine as genetic outgroup. Moreover, I measured abiotic water parameters at the sampling sites and analyzed if they were correlated with the genetic parameters of the populations. The genetic differentiation was basically consistent with the overall biogeographical history of the populations in the study region. However, the genetic diversity of the populations was not influenced by the geographical distance between the populations, but by the environmental factors oxygen and temperature and also by other unidentified factors. I found strong evidence that genetic adaptation of zebra mussel populations to local habitat conditions had influenced the genetic constitution of the populations. Moreover, by establishing the biogeographical baseline of molecular variance in the study area, I laid the foundation for interpreting population genetic results in ecotoxicological experiments in this region.rnIn a cooperation project with the Department of Zoology of the University of Zagreb, I elaborated an integrated approach in biomonitoring with D. polymorpha by combining the analysis techniques of microsatellite analysis, Comet assay and micronucleus test (MNT). This approach was applied in a case study on freshwater contamination by an effluent of a wastewater treatment plant (WWTP) in the River Drava (Croatia) and a complementary laboratory experiment. I assessed and compared the genetic status of two zebra mussel populations from a contaminated and a reference site. Microsatellite analysis suggested that the contaminated population had undergone a genetic bottleneck, caused by random genetic drift and selection, whereas a bottleneck was not detected in the reference population. The Comet assay did not indicate any difference in DNA damage between the two populations, but MNT revealed that the contaminated population had an increased percentage of micronuclei in hemocytes in comparison to the reference population. The laboratory experiment with mussels exposed to municipal wastewater revealed that mussels from the contaminated site had a lower percentage of tail DNA and a higher percentage of micronuclei than the reference population. These differences between populations were probably caused by an overall decreased fitness of mussels from the contaminated site due to genetic drift and by an enhanced DNA repair mechanism due to adaptation to pollution in the source habitat. Overall, the combination of the three biomarkers provided sufficient information on the impact of both treated and non-treated municipal wastewater on the genetics of zebra mussels at different levels of biological organization.rnIn my thesis, I could show that the newly established marker set of six microsatellite loci provided reliable and informative data for population genetic analyses of D. polymorpha. The adaptation of the analyzed zebra mussel populations to the local conditions of their habitat had a strong influence on their genetic constitution. We found evidence that the different genetic constitutions of two populations had influenced the outcome of our ecotoxicological experiment. Overall, the integrated approach in biomonitoring gave comprehensive information about the impact of both treated and non-treated municipal wastewater on the genetics of zebra mussels at different levels of biological organization and was well practicable in a first case study.