Nineteen specimens from primary human malignant mesotheliomas obtained from 19 patients were scre... more Nineteen specimens from primary human malignant mesotheliomas obtained from 19 patients were screened for activating point mutations in the oncogenes N-ras and CDK4 by combined RFLP-PCR/SSCP analysis. In addition, all tumours were screened for deletions and point mutations in the tumour suppressor genes p53, p16INK4a (CDKN2A) and p14ARF (exon-1beta) by combined multiplex-PCR/SSCP analysis. No mutations were found in N-ras, p53 and CDK4. Three tumours displayed homozygous deletion (co-deletion of exons 1, 2 and 3) of p16INK4a. One of them displayed additional homozygous deletion of p14ARF (exon-1beta). Two silent point mutations and 2 polymorphisms were found in p16INK4a in 3 tumours. Our preliminary data indicate that disarrangement of the Rb1 pathway may be involved in mesothelioma formation.
Developments in the field of molecular epidemiology and toxicology have given valuable tools for ... more Developments in the field of molecular epidemiology and toxicology have given valuable tools for early detection of impending disease or toxic condition. Morbidity due to respiratory distress, which may be due to environmental and occupational exposure, has drawn attention of researchers worldwide. Among the occupational exposure to respiratory distress factors, fibers and particles have been found to be main culprits in causing diseases like asbestosis, pleural plaques, mesotheliomas and bronchogenic carcinomas. An early detection of the magnitude of exposure or its' effect using molecular end points is of growing importance. The early inflammatory responses like release of the inflammatory cells collected by non-invasive methods give an indication of the unwanted exposure and susceptibility to further complications. Since free radicals like O2-, OH, OOH, NO, NOO, etc. are involved in the progression of asbestos-related diseases and lead to cytogenetic changes, an evaluation of antioxidant states reducing equivalents like GSH and ROS generation can be a good biomarker. The cytogenetic end points like chromosomal aberration, micronucleus formation and sister chromatid exchange give indication of genetic damage, hence they are used as effective biomarkers. New techniques like fluorimetric analysis of DNA unwinding, alkaline elution test, fluorescent in situ hybridization and comet assay are powerful tools for early detection of initiation of disease process and may help in planning strategies for minimizing morbidity related to asbestos fiber exposure. The present review article covers in detail possible biomarkers for risk assessment of morbidity due to fibers/particles in exposed population.
Epidemiological and experimental studies have suggested an enhancement of asbestos-induced bronch... more Epidemiological and experimental studies have suggested an enhancement of asbestos-induced bronchogenic carcinoma by cigarette smoke. Further, our recent experimental and epidemiological studies have indicated that besides smoking, several other compounds including kerosene soot may accelerate disease processes in asbestos-exposed animals as well as in the humans. Incomplete combustion of kerosene oil generates large volumes of soot, which contains various polycyclic aromatic hydrocarbons and aliphatic compounds. As reported earlier, exposure to kerosene soot is known to cause biochemical and pathological changes in the pulmonary tissue, which may cause cardiopulmonary disorders. In this study we investigated genotoxic effects caused by kerosene soot and chrysotile asbestos as well as co-exposure of kerosene soot and chrysotile using Syrian hamster embryo fibroblasts (SHE). The micronucleus assay revealed a significant increase of induced micronuclei (MN), (P 50.05) in SHE cells after treatment with kerosene soot (0.5-1.0 mg/cm 2) for 66 h (36 MN/1000 cells). Combined treatment with chrysotile and soot induced up to 110 MN/1000 cells (chrysotile alone: 80 MN/1000 cells; concentrations: 1 mg/cm 2 , exposure times: 66 h). Kinetochore staining revealed mainly clastogenic effects in all cases (soot: 21.3% CRMN + ; chrysotile: 27%; soot + chrysotile: 27.6%; control: 20.8%). This is the first study showing that kerosene soot is not only genotoxic but it can also elevate the genotoxic potential of chrysotile asbestos. This information may be of importance for workers occupationally exposed to asbestos and domestically exposed to kerosene soot.
ABSTRACT In contrast to the temporary administration of arsenic in cancer therapy (e.g. in the fo... more ABSTRACT In contrast to the temporary administration of arsenic in cancer therapy (e.g. in the form of arsenic trioxide), chronic exposure to low doses can cause bladder cancer and other cancers. Especially the trivalent arsenic species MMA(III) (monomethylarsonous acid) and DMA(III) (dimethylarsinous acid) are known to be highly toxic. In the present study we analysed the soluble, intracellular biotransformation products of MMA(III) in methylating HepG2 (hepatocytes) and non-methylating UROtsa cells (urothelial cells) after various times of exposure. As most of the intracellulararsenic is bound to cellular structures and proteins the soluble arsenicmetabolites can hardly be speciated and even less quantified. Using an improved isolation procedure and HPLC-ICP/MS, we investigated the time-resolved biotransformation of MMA(III) and detected and quantified MMA(V) (monomethylarsonic acid) as an oxidation product of MMA(III) and, to a minor degree, DMA(V) (dimethylarsenic acid) as a methylation and oxidation product of MMA(III) in the lysates of HepG2 cells. In contrast, only MMA(V) but no DMA(V) was detected in the lysates of UROtsa cells. We conclude from our study that MMA(III) is taken up by HepG2 and UROtsa cells and immediately oxidized to MMA(V). Only in HepG2 cellsMMA(V) is finally methylated to DMA(V) over time. The new method might help to advance the analysis of metabolic pathways of arsenic in mammalian cells.
ABSTRACT Epidemiological and experimental studies have suggested the enhancement of asbestos indu... more ABSTRACT Epidemiological and experimental studies have suggested the enhancement of asbestos induced disease processes by simultaneous exposure to kerosene, its soot, and cigarette smoke in asbestos-exposed animals as well as in humans. To determine the influence of these factors on the genotoxic potential of asbestos, a micronucleus test was performed in Syrian hamster embryo fibroblasts (SHE) and human lymphocytes. To observe the specific chromosomal damages, multicolor fluorescence in situ hybridization (FISH) was done in the lymphocytes from smokers and nonsmokers exposed in vitro to asbestos. Significantly higher numbers of micronuclei were observed in SHE cells after combined treatment with chrysotile and kerosene soot (111 micronuclei/1000 cells) in comparison to chrysotile and kerosene soot separately. Kinetochore staining revealed mainly clastogenic effects in all the cases. In human lymphocytes exposed in cultures to chrysotile and crocidolite the numbers of micronuclei were found higher in smokers than nonsmokers. Multicolor FISH assay suggested that asbestos fibers inflict high damage within 1q12 and in the region between 1cen and 1q12 of chromosome 1. In the exposed population of an asbestos cement factory, the highest genetic damage was found in the blood lymphocytes of exposed smokers. The study suggests that smokers occupationally exposed to asbestos and domestically to kerosene soot are at higher risk for the early development of asbestos-induced diseases.
Crystalline silica has been classified as a human carcinogen, but there is still considerable con... more Crystalline silica has been classified as a human carcinogen, but there is still considerable controversy regarding its fibrogenic and carcinogenic potential. In the present study, we investigated the genotoxic potential of bentonite particles (diameter < 10 microm) with an a-quartz content of up to 6% and different chemical modifications (alkaline, acidic, organic). Human lung fibroblasts (IMR90) were incubated for 36 h, 48 h, or 72 h with bentonite particles in concentrations ranging from 1 to 15 microg/cm2. Genotoxicity was assessed using the micronucleus (MN) assay and kinetochore analysis. The generation of reactive oxygen species (ROS) caused by bentonite particles via Fenton-like mechanisms was measured acellularly using electron spin resonance (ESR) technique and intracellularly by applying an iron chelator. Our results show that bentonite-induced genotoxic effects in human lung fibroblasts are weak. The formation of micronuclei was only slightly increased after exposure of IMR90 cells to an acidic sample of bentonite dust with a quartz content of 4-5% for 36 h (15 microg/cm2), 48 h (5 microg/cm2), and 72 h (1 microg/cm2), to an alkaline sample with a quartz content of 5% for 48 h and 72 h (15 microg/cm2), and to an acidic bentonite sample with 1% quartz for 72 h (1 microg/cm2). Native (untreated) and organic activated bentonite particles did not show genotoxic effects in most of the experiments. Also, bentonite particles with a quartz content < 1% were negative in the micronucleus assay. Generation of ROS measured by ESR was dependent on the content of transition metals in the sample but not on the quartz content or the chemical modification. Reduction of MN after addition of the iron chelator 2,2'-dipyridyl showed that ROS formation also occurs intracellularly. Altogether, we conclude that the genotoxic potential of bentonite particles is generally low but can be altered by the content of quartz and available transition metals.
Environmental Science and Pollution Research, 2014
Arsenic, a common poison, is known to react with sulfide in vivo, forming thioarsenates. The acut... more Arsenic, a common poison, is known to react with sulfide in vivo, forming thioarsenates. The acute toxicity of the inorganic thioarsenates is currently unknown. Our experiments showed that a fourfold sulfide excess reduced acute arsenite cytotoxicity in human hepatocytes (HepG2) and urothelial cells (UROtsa) significantly, but had little effect on arsenate toxicity. Speciation analysis showed immediate formation of thioarsenates (up to 73 % of total arsenic) in case of arsenite, but no speciation changes for arsenate. Testing acute toxicity of mono- and trithioarsenate individually, both thioarsenates were found to be more toxic than their structural analogue arsenate, but less toxic than arsenite. Toxicity increased with the number of thio groups. The amount of cellular arsenic uptake after 24 h corresponded to the order of toxicity of the four compounds tested. The dominant to almost exclusive intracellular arsenic species was arsenite. The results imply that thiolation is a detoxification process for arsenite in sulfidic milieus. The mechanism could either be that thioarsenates regulate the amount of free arsenite available for cellular uptake without entering the cells themselves, or, based on their chemical similarity to arsenate, they could be taken up by similar transporters and reduced rapidly intracellularly to arsenite.
Bismuth compounds are widely used in industrial processes and products. In medicine, bismuth salt... more Bismuth compounds are widely used in industrial processes and products. In medicine, bismuth salts have been applied in combination with antibiotics for the treatment of Helicobacter pylori infections, for the prevention of diarrhea, and in radioimmunotherapy. In the environment, bismuth ions can be biotransformed to the volatile bismuth compound trimethylbismuth (Me3Bi) by methanobacteria. Preliminary in-house studies have indicated that bismuth ions are methylated in the human colon by intestinal microflora following ingestion of bismuth-containing salts. Information concerning cyto- and genotoxicity of these biomethylated products is limited. In the present study, we investigated the cellular uptake of an organic bismuth compound [monomethylbismuth(III), MeBi(III)] and two other bismuth compounds [bismuth citrate (Bi-Cit) and bismuth glutathione (Bi-GS)] in human hepatocytes, lymphocytes, and erythrocytes using ICP-MS. We also analyzed the cyto- and genotoxic effects of these compounds to investigate their toxic potential. Our results show that the methylbismuth compound was better taken up by the cells than Bi-Cit and Bi-GS. All intracellularly detected bismuth compounds were located in the cytosol of the cells. MeBi(III) was best taken up by erythrocytes (36%), followed by lymphocytes (17%) and hepatocytes (0.04%). Erythrocytes and hepatocytes were more susceptible to MeBi(III) exposure than lymphocytes. Cytotoxic effects of MeBi(III) were detectable in erythrocytes at concentrations >4 microM, in hepatocytes at >130 microM, and in lymphocytes at >430 microM after 24 h of exposure. Cytotoxic effects for Bi-Cit and Bi-GS were much lower or not detectable in the used cell lines up to a tested concentration of 500 microM. Exposure of lymphocytes to MeBi(III) (250 microM for 1 h and 25 microM/50 microM for 24 h) resulted in significantly increased frequencies of chromosomal aberrations (CA) and sister chromatid exchanges (SCE), whereas Bi-Cit and Bi-GS induced neither CA nor SCE. Our study also showed an intracellular production of free radicals caused by MeBi(III) in hepatocytes but not in lymphocytes. These data suggest that biomethylation of bismuth ions by the intestinal microflora of the human colon leads to an increase in the toxicity of the primary bismuth salt.
The centric/pericentric region of chromosome 1 (cen-q 2) of human melanoma cells of different sta... more The centric/pericentric region of chromosome 1 (cen-q 2) of human melanoma cells of different stages of carcinogenicity (superficial spreading melanoma (SSM), lentigo malignant melanoma (LMM)) and premalignant precursor lesions (congenital nevus (CN)) were investigated by fluorescence in situ hybridization (FISH) with tandem DNA probes. The pericentric heterochromatin region 1(q12) is large and highly prone to breakage in contrast to the adjacent centromeric region which is much smaller and less prone to such events. All samples of melanoma cells were obtained from patients and cultivated in vitro. LMM cells showed the highest number of breakage events within the 1q12 region (90% of cells). The number of hyperdiploid cells was not increased in comparison to CN cells. In contrast to LMM cells, SSM cells showed a significant increased number of hyperdiploid cells which were mainly tetrasomic for chromosome 1 (P < or = 0.05). The number of chromosome breaks was not significantly increased in this type of melanoma cells. The spontaneous rates of chromosomal breakage and hyperdiploidy is relatively low in CN cells (1.5-2.5% and 3.2-5.8%, respectively) but these frequencies also differ between CN samples from different patients. These results show that the multicolor FISH technique represents a fast and reliable detection method, distinguishing structural and numerical chromosomal alterations in interphase nuclei. This technique is useful as a histological marker to differentiate between specific tumor subtypes and to investigate the relationship between genomic instability and clinopathological parameters (tumor grading and staging).
Considering the biological reactivity of pure quartz in lung cells, there is a strong interest to... more Considering the biological reactivity of pure quartz in lung cells, there is a strong interest to clarify the cellular effects of respirable siliceous dusts, like bentonites. In the present study, we investigated the cellular uptake and the cytotoxic potential of bentonite particles (Ø< 10 lm) with an a-quartz content of up to 6% and different chemical modifications (activation: alkaline, acidic, organic) in human lung fibroblasts (IMR90). Additionally, the ability of the particles to induce apoptosis in IMR90-cells and the hemolytic activity was tested. All bentonite samples were tested for endotoxins with the in vitro-Pyrogen test and were found to be negative. Cellular uptake of particles by IMR90-cells was studied by transmission electron microscopy (TEM). Cytotoxicity was analyzed in IMR90-cells by determination of viable cells using flow cytometry and by measuring of the cell respiratory activity. Induced apoptotic cells were detected by An-nexinV/Propidiumiodide-staining and gel electrophoresis. Our results demonstrate that activated bentonite particles are better taken up by IMR90-cells than untreated (native) bentonite particles. Also, activated bentonite particles with a quartz content of 5-6% were more cytotoxic than untreated bentonites or bentonites with a quartz content lower than 4%. The bentonite samples induced necrotic as well as apoptotic cell death. In general, bentonites showed a high membrane-damaging potential shown as hemolytic activity in human erythrocytes. We conclude that cellular effects of bentonite particles in human lung cells are enhanced after chemical treatment of the particles. The cytotoxic potential of the different bentonites is primarily characterized by a strong lysis of the cell membrane.
Leukemia of the soft shell clam, Mya arenaria, is characterized by circulating tumor cells detect... more Leukemia of the soft shell clam, Mya arenaria, is characterized by circulating tumor cells detected initially in the hemolymph and, as the disease progresses, in solid tissue. Because they are estuarine filter-feeders, clams are exposed to a wide variety of environmental pollutants. Genotoxic pollutants may react directly in vivo with DNA. Genotoxins may also act indirectly after cellular metabolism resulting in DNA adducts or lesions which then induce genetic changes. The micronucleus (MN) assay was used to detect genomic damage in clam hemocytes. We initially determined if the number of leukemia cells identified by a monoclonal antibody (MAb) correlated with micronucleus formation. Clams collected from a site heavily contaminated with PCBs (New Bedford Harbor, NBH, MA) showed a significant increase in MN formation when compared with clams from a relatively pristine site (Martha's Vineyard, MV, MA). Specifically. micronucleus frequency was 3 times higher in NBH clams than MV clams. Further, a positive correlation between each stage of leukemic disease (number of leukemic cells/ml hemolymph) and the corresponding MN frequency was found. When MV clams were exposed to the alkylating agent ethyl methanesulfonate (EMS: 50, 100 and 150 mg/l) in the laboratory (exposure time: 2-10 days), micronuclei were detected in normal hemocytes. The number of MN was directly related to the dose of EMS. After treatment with 150 mg/l EMS and an exposure time of 10 days, MN formation was 4 times higher than without treatment. Hemocyte reactivity with the MAb 1ElO did not increase following treatment with EMS, but the percent MN formation showed a relationship with the percent leukemia cells within the clams from the field. Thus MN are generated either in response to an alkylating agent (EMS) or in response to environmental genotoxic materials.
To gain biologically and chemically safe conditions in aquatic systems, as required by the EU Wat... more To gain biologically and chemically safe conditions in aquatic systems, as required by the EU Water Framework Directive, advanced oxidation processes are the only conceivable possibility to remove pharmaceuticals and their metabolites from waste water. Water treatment plants are not designed for the complete mineralization of these substances, so that oxidation by-products occur, whose chemical and toxicological properties are often unknown. In this study an UV-oxidation system with and without H2O2 was tested to optimize the elimination of pharmaceuticals, and replenished with toxicological investigations of untreated and oxidatively treated samples. The substances carbamazepine, metoprolol, amidotrizoic acid, diclofenac, and sulfamethoxazole were used as lead compounds. They were studied separately and as a substance mixture. The UV-system had a low-pressure lamp with an emission wavelength of 254 nm and a maximum UV output of 15 W. The sample volume was 1 L with a flow rate of 0....
Journal of Toxicology and Environmental Health, Part A, 2021
ABSTRACT The aim of this interdisciplinary research project in North Rhine-Westphalia (NRW), Germ... more ABSTRACT The aim of this interdisciplinary research project in North Rhine-Westphalia (NRW), Germany, entitled “Elimination of pharmaceuticals and organic micropollutants from waste water” involved the conception of cost-effective and innovative waste-water cleaning methods. In this project in vitro assays, in vivo assays and chemical analyses were performed on three municipal waste-water treatment plants (WWTP). This publication focuses on the study of the in vitro bioassays. Cytotoxic, estrogenic, genotoxic and mutagenic effects of the original as well as enriched water samples were monitored before and after wastewater treatment steps using MTT and PAN I, ER Calux and A-YES, micronucleus and Comet assays as well as AMES test. In most cases, the measured effects were reduced after ozonation, but in general, the biological response depended upon the water composition of the WWTP, in particular on the formed by-products and concentration of micropollutants. In order to be able to assess the genotoxic and/or mutagenic potential of waste-water samples using bioassays like Ames test, Comet assay or micronucleus test an enrichment of the water sample via solid-phase extraction is recommended. This is in agreement with previous studies such as the “ToxBox”-Project of the Environmental Agency in Germany.
International Journal of Hygiene and Environmental Health, 2019
Endocrine active substances (EAS), which are commonly used in pharmaceuticals and personal care p... more Endocrine active substances (EAS), which are commonly used in pharmaceuticals and personal care products, are released into surface water mainly through WWTP effluents and have been shown to cause adverse effects in aquatic organisms. In wastewater, a variety of EAS with different hormonal activities is present, which can lead to additive effects or mask an endocrine activity. To investigate hormonal combination effects, with a focus on estrogen and androgen-modulators, influent samples from municipal and hospital wastewater treatmenr plants were spiked with 17α-ethinylestradiol, toremifene, 17α-methyltestosterone and bicalutamide and analyzed using in vitro reporter gene CALUX assays. All wastewaters caused endocrine activities in human cells, which were modified by adding one or several endocrine active substances. As expected, estrogenic activity was reduced in presence of the anti-estrogenic toremifene and androgenic activity decreased with the anti-androgen bicalutamide. In general, substance addition caused a similar trend in altered endocrine activities; however, their intensities differed between the wastewaters. Our results indicate that masking effects, leading to a suppressed biological signal, are of significant importance in the assessment of complex water samples, and combination effects rather than single substances determine the final biological effect. This emphasizes the need of effectbased tools in the assessment of water samples.
In case problematic organic substances, like pharmaceuticals and personal care products, cannot b... more In case problematic organic substances, like pharmaceuticals and personal care products, cannot be eliminated during wastewater treatment, they can reach surface waters and harm the environment and have adverse effects on human health already at low concentrations of the substance. The amount of micropollutants in surface waters is steadily growing [1]. Micropollutants occur in surface water samples at concentrations in the pico-, nano- or micromolar range, thus, there is a need of as sensitive biological test systems as possible to detect toxic effects. Different genotoxicity tests are available and have been already implemented, therein the micronucleus assay proposed by the German Umweltbundesamt in 2003 [2] and the umu-test for mutagenicity testing required by the waste water guideline [3]. In this study four genotoxicity tests with different endpoints were compared for their sensitivity to detect effects induced by different chemical substances that are commonly used as positiv...
Nineteen specimens from primary human malignant mesotheliomas obtained from 19 patients were scre... more Nineteen specimens from primary human malignant mesotheliomas obtained from 19 patients were screened for activating point mutations in the oncogenes N-ras and CDK4 by combined RFLP-PCR/SSCP analysis. In addition, all tumours were screened for deletions and point mutations in the tumour suppressor genes p53, p16INK4a (CDKN2A) and p14ARF (exon-1beta) by combined multiplex-PCR/SSCP analysis. No mutations were found in N-ras, p53 and CDK4. Three tumours displayed homozygous deletion (co-deletion of exons 1, 2 and 3) of p16INK4a. One of them displayed additional homozygous deletion of p14ARF (exon-1beta). Two silent point mutations and 2 polymorphisms were found in p16INK4a in 3 tumours. Our preliminary data indicate that disarrangement of the Rb1 pathway may be involved in mesothelioma formation.
Developments in the field of molecular epidemiology and toxicology have given valuable tools for ... more Developments in the field of molecular epidemiology and toxicology have given valuable tools for early detection of impending disease or toxic condition. Morbidity due to respiratory distress, which may be due to environmental and occupational exposure, has drawn attention of researchers worldwide. Among the occupational exposure to respiratory distress factors, fibers and particles have been found to be main culprits in causing diseases like asbestosis, pleural plaques, mesotheliomas and bronchogenic carcinomas. An early detection of the magnitude of exposure or its&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;#39; effect using molecular end points is of growing importance. The early inflammatory responses like release of the inflammatory cells collected by non-invasive methods give an indication of the unwanted exposure and susceptibility to further complications. Since free radicals like O2-, OH, OOH, NO, NOO, etc. are involved in the progression of asbestos-related diseases and lead to cytogenetic changes, an evaluation of antioxidant states reducing equivalents like GSH and ROS generation can be a good biomarker. The cytogenetic end points like chromosomal aberration, micronucleus formation and sister chromatid exchange give indication of genetic damage, hence they are used as effective biomarkers. New techniques like fluorimetric analysis of DNA unwinding, alkaline elution test, fluorescent in situ hybridization and comet assay are powerful tools for early detection of initiation of disease process and may help in planning strategies for minimizing morbidity related to asbestos fiber exposure. The present review article covers in detail possible biomarkers for risk assessment of morbidity due to fibers/particles in exposed population.
Epidemiological and experimental studies have suggested an enhancement of asbestos-induced bronch... more Epidemiological and experimental studies have suggested an enhancement of asbestos-induced bronchogenic carcinoma by cigarette smoke. Further, our recent experimental and epidemiological studies have indicated that besides smoking, several other compounds including kerosene soot may accelerate disease processes in asbestos-exposed animals as well as in the humans. Incomplete combustion of kerosene oil generates large volumes of soot, which contains various polycyclic aromatic hydrocarbons and aliphatic compounds. As reported earlier, exposure to kerosene soot is known to cause biochemical and pathological changes in the pulmonary tissue, which may cause cardiopulmonary disorders. In this study we investigated genotoxic effects caused by kerosene soot and chrysotile asbestos as well as co-exposure of kerosene soot and chrysotile using Syrian hamster embryo fibroblasts (SHE). The micronucleus assay revealed a significant increase of induced micronuclei (MN), (P 50.05) in SHE cells after treatment with kerosene soot (0.5-1.0 mg/cm 2) for 66 h (36 MN/1000 cells). Combined treatment with chrysotile and soot induced up to 110 MN/1000 cells (chrysotile alone: 80 MN/1000 cells; concentrations: 1 mg/cm 2 , exposure times: 66 h). Kinetochore staining revealed mainly clastogenic effects in all cases (soot: 21.3% CRMN + ; chrysotile: 27%; soot + chrysotile: 27.6%; control: 20.8%). This is the first study showing that kerosene soot is not only genotoxic but it can also elevate the genotoxic potential of chrysotile asbestos. This information may be of importance for workers occupationally exposed to asbestos and domestically exposed to kerosene soot.
ABSTRACT In contrast to the temporary administration of arsenic in cancer therapy (e.g. in the fo... more ABSTRACT In contrast to the temporary administration of arsenic in cancer therapy (e.g. in the form of arsenic trioxide), chronic exposure to low doses can cause bladder cancer and other cancers. Especially the trivalent arsenic species MMA(III) (monomethylarsonous acid) and DMA(III) (dimethylarsinous acid) are known to be highly toxic. In the present study we analysed the soluble, intracellular biotransformation products of MMA(III) in methylating HepG2 (hepatocytes) and non-methylating UROtsa cells (urothelial cells) after various times of exposure. As most of the intracellulararsenic is bound to cellular structures and proteins the soluble arsenicmetabolites can hardly be speciated and even less quantified. Using an improved isolation procedure and HPLC-ICP/MS, we investigated the time-resolved biotransformation of MMA(III) and detected and quantified MMA(V) (monomethylarsonic acid) as an oxidation product of MMA(III) and, to a minor degree, DMA(V) (dimethylarsenic acid) as a methylation and oxidation product of MMA(III) in the lysates of HepG2 cells. In contrast, only MMA(V) but no DMA(V) was detected in the lysates of UROtsa cells. We conclude from our study that MMA(III) is taken up by HepG2 and UROtsa cells and immediately oxidized to MMA(V). Only in HepG2 cellsMMA(V) is finally methylated to DMA(V) over time. The new method might help to advance the analysis of metabolic pathways of arsenic in mammalian cells.
ABSTRACT Epidemiological and experimental studies have suggested the enhancement of asbestos indu... more ABSTRACT Epidemiological and experimental studies have suggested the enhancement of asbestos induced disease processes by simultaneous exposure to kerosene, its soot, and cigarette smoke in asbestos-exposed animals as well as in humans. To determine the influence of these factors on the genotoxic potential of asbestos, a micronucleus test was performed in Syrian hamster embryo fibroblasts (SHE) and human lymphocytes. To observe the specific chromosomal damages, multicolor fluorescence in situ hybridization (FISH) was done in the lymphocytes from smokers and nonsmokers exposed in vitro to asbestos. Significantly higher numbers of micronuclei were observed in SHE cells after combined treatment with chrysotile and kerosene soot (111 micronuclei/1000 cells) in comparison to chrysotile and kerosene soot separately. Kinetochore staining revealed mainly clastogenic effects in all the cases. In human lymphocytes exposed in cultures to chrysotile and crocidolite the numbers of micronuclei were found higher in smokers than nonsmokers. Multicolor FISH assay suggested that asbestos fibers inflict high damage within 1q12 and in the region between 1cen and 1q12 of chromosome 1. In the exposed population of an asbestos cement factory, the highest genetic damage was found in the blood lymphocytes of exposed smokers. The study suggests that smokers occupationally exposed to asbestos and domestically to kerosene soot are at higher risk for the early development of asbestos-induced diseases.
Crystalline silica has been classified as a human carcinogen, but there is still considerable con... more Crystalline silica has been classified as a human carcinogen, but there is still considerable controversy regarding its fibrogenic and carcinogenic potential. In the present study, we investigated the genotoxic potential of bentonite particles (diameter &amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;lt; 10 microm) with an a-quartz content of up to 6% and different chemical modifications (alkaline, acidic, organic). Human lung fibroblasts (IMR90) were incubated for 36 h, 48 h, or 72 h with bentonite particles in concentrations ranging from 1 to 15 microg/cm2. Genotoxicity was assessed using the micronucleus (MN) assay and kinetochore analysis. The generation of reactive oxygen species (ROS) caused by bentonite particles via Fenton-like mechanisms was measured acellularly using electron spin resonance (ESR) technique and intracellularly by applying an iron chelator. Our results show that bentonite-induced genotoxic effects in human lung fibroblasts are weak. The formation of micronuclei was only slightly increased after exposure of IMR90 cells to an acidic sample of bentonite dust with a quartz content of 4-5% for 36 h (15 microg/cm2), 48 h (5 microg/cm2), and 72 h (1 microg/cm2), to an alkaline sample with a quartz content of 5% for 48 h and 72 h (15 microg/cm2), and to an acidic bentonite sample with 1% quartz for 72 h (1 microg/cm2). Native (untreated) and organic activated bentonite particles did not show genotoxic effects in most of the experiments. Also, bentonite particles with a quartz content &amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;lt; 1% were negative in the micronucleus assay. Generation of ROS measured by ESR was dependent on the content of transition metals in the sample but not on the quartz content or the chemical modification. Reduction of MN after addition of the iron chelator 2,2&amp;amp;amp;amp;amp;amp;amp;amp;amp;amp;#39;-dipyridyl showed that ROS formation also occurs intracellularly. Altogether, we conclude that the genotoxic potential of bentonite particles is generally low but can be altered by the content of quartz and available transition metals.
Environmental Science and Pollution Research, 2014
Arsenic, a common poison, is known to react with sulfide in vivo, forming thioarsenates. The acut... more Arsenic, a common poison, is known to react with sulfide in vivo, forming thioarsenates. The acute toxicity of the inorganic thioarsenates is currently unknown. Our experiments showed that a fourfold sulfide excess reduced acute arsenite cytotoxicity in human hepatocytes (HepG2) and urothelial cells (UROtsa) significantly, but had little effect on arsenate toxicity. Speciation analysis showed immediate formation of thioarsenates (up to 73 % of total arsenic) in case of arsenite, but no speciation changes for arsenate. Testing acute toxicity of mono- and trithioarsenate individually, both thioarsenates were found to be more toxic than their structural analogue arsenate, but less toxic than arsenite. Toxicity increased with the number of thio groups. The amount of cellular arsenic uptake after 24 h corresponded to the order of toxicity of the four compounds tested. The dominant to almost exclusive intracellular arsenic species was arsenite. The results imply that thiolation is a detoxification process for arsenite in sulfidic milieus. The mechanism could either be that thioarsenates regulate the amount of free arsenite available for cellular uptake without entering the cells themselves, or, based on their chemical similarity to arsenate, they could be taken up by similar transporters and reduced rapidly intracellularly to arsenite.
Bismuth compounds are widely used in industrial processes and products. In medicine, bismuth salt... more Bismuth compounds are widely used in industrial processes and products. In medicine, bismuth salts have been applied in combination with antibiotics for the treatment of Helicobacter pylori infections, for the prevention of diarrhea, and in radioimmunotherapy. In the environment, bismuth ions can be biotransformed to the volatile bismuth compound trimethylbismuth (Me3Bi) by methanobacteria. Preliminary in-house studies have indicated that bismuth ions are methylated in the human colon by intestinal microflora following ingestion of bismuth-containing salts. Information concerning cyto- and genotoxicity of these biomethylated products is limited. In the present study, we investigated the cellular uptake of an organic bismuth compound [monomethylbismuth(III), MeBi(III)] and two other bismuth compounds [bismuth citrate (Bi-Cit) and bismuth glutathione (Bi-GS)] in human hepatocytes, lymphocytes, and erythrocytes using ICP-MS. We also analyzed the cyto- and genotoxic effects of these compounds to investigate their toxic potential. Our results show that the methylbismuth compound was better taken up by the cells than Bi-Cit and Bi-GS. All intracellularly detected bismuth compounds were located in the cytosol of the cells. MeBi(III) was best taken up by erythrocytes (36%), followed by lymphocytes (17%) and hepatocytes (0.04%). Erythrocytes and hepatocytes were more susceptible to MeBi(III) exposure than lymphocytes. Cytotoxic effects of MeBi(III) were detectable in erythrocytes at concentrations &gt;4 microM, in hepatocytes at &gt;130 microM, and in lymphocytes at &gt;430 microM after 24 h of exposure. Cytotoxic effects for Bi-Cit and Bi-GS were much lower or not detectable in the used cell lines up to a tested concentration of 500 microM. Exposure of lymphocytes to MeBi(III) (250 microM for 1 h and 25 microM/50 microM for 24 h) resulted in significantly increased frequencies of chromosomal aberrations (CA) and sister chromatid exchanges (SCE), whereas Bi-Cit and Bi-GS induced neither CA nor SCE. Our study also showed an intracellular production of free radicals caused by MeBi(III) in hepatocytes but not in lymphocytes. These data suggest that biomethylation of bismuth ions by the intestinal microflora of the human colon leads to an increase in the toxicity of the primary bismuth salt.
The centric/pericentric region of chromosome 1 (cen-q 2) of human melanoma cells of different sta... more The centric/pericentric region of chromosome 1 (cen-q 2) of human melanoma cells of different stages of carcinogenicity (superficial spreading melanoma (SSM), lentigo malignant melanoma (LMM)) and premalignant precursor lesions (congenital nevus (CN)) were investigated by fluorescence in situ hybridization (FISH) with tandem DNA probes. The pericentric heterochromatin region 1(q12) is large and highly prone to breakage in contrast to the adjacent centromeric region which is much smaller and less prone to such events. All samples of melanoma cells were obtained from patients and cultivated in vitro. LMM cells showed the highest number of breakage events within the 1q12 region (90% of cells). The number of hyperdiploid cells was not increased in comparison to CN cells. In contrast to LMM cells, SSM cells showed a significant increased number of hyperdiploid cells which were mainly tetrasomic for chromosome 1 (P &lt; or = 0.05). The number of chromosome breaks was not significantly increased in this type of melanoma cells. The spontaneous rates of chromosomal breakage and hyperdiploidy is relatively low in CN cells (1.5-2.5% and 3.2-5.8%, respectively) but these frequencies also differ between CN samples from different patients. These results show that the multicolor FISH technique represents a fast and reliable detection method, distinguishing structural and numerical chromosomal alterations in interphase nuclei. This technique is useful as a histological marker to differentiate between specific tumor subtypes and to investigate the relationship between genomic instability and clinopathological parameters (tumor grading and staging).
Considering the biological reactivity of pure quartz in lung cells, there is a strong interest to... more Considering the biological reactivity of pure quartz in lung cells, there is a strong interest to clarify the cellular effects of respirable siliceous dusts, like bentonites. In the present study, we investigated the cellular uptake and the cytotoxic potential of bentonite particles (Ø< 10 lm) with an a-quartz content of up to 6% and different chemical modifications (activation: alkaline, acidic, organic) in human lung fibroblasts (IMR90). Additionally, the ability of the particles to induce apoptosis in IMR90-cells and the hemolytic activity was tested. All bentonite samples were tested for endotoxins with the in vitro-Pyrogen test and were found to be negative. Cellular uptake of particles by IMR90-cells was studied by transmission electron microscopy (TEM). Cytotoxicity was analyzed in IMR90-cells by determination of viable cells using flow cytometry and by measuring of the cell respiratory activity. Induced apoptotic cells were detected by An-nexinV/Propidiumiodide-staining and gel electrophoresis. Our results demonstrate that activated bentonite particles are better taken up by IMR90-cells than untreated (native) bentonite particles. Also, activated bentonite particles with a quartz content of 5-6% were more cytotoxic than untreated bentonites or bentonites with a quartz content lower than 4%. The bentonite samples induced necrotic as well as apoptotic cell death. In general, bentonites showed a high membrane-damaging potential shown as hemolytic activity in human erythrocytes. We conclude that cellular effects of bentonite particles in human lung cells are enhanced after chemical treatment of the particles. The cytotoxic potential of the different bentonites is primarily characterized by a strong lysis of the cell membrane.
Leukemia of the soft shell clam, Mya arenaria, is characterized by circulating tumor cells detect... more Leukemia of the soft shell clam, Mya arenaria, is characterized by circulating tumor cells detected initially in the hemolymph and, as the disease progresses, in solid tissue. Because they are estuarine filter-feeders, clams are exposed to a wide variety of environmental pollutants. Genotoxic pollutants may react directly in vivo with DNA. Genotoxins may also act indirectly after cellular metabolism resulting in DNA adducts or lesions which then induce genetic changes. The micronucleus (MN) assay was used to detect genomic damage in clam hemocytes. We initially determined if the number of leukemia cells identified by a monoclonal antibody (MAb) correlated with micronucleus formation. Clams collected from a site heavily contaminated with PCBs (New Bedford Harbor, NBH, MA) showed a significant increase in MN formation when compared with clams from a relatively pristine site (Martha's Vineyard, MV, MA). Specifically. micronucleus frequency was 3 times higher in NBH clams than MV clams. Further, a positive correlation between each stage of leukemic disease (number of leukemic cells/ml hemolymph) and the corresponding MN frequency was found. When MV clams were exposed to the alkylating agent ethyl methanesulfonate (EMS: 50, 100 and 150 mg/l) in the laboratory (exposure time: 2-10 days), micronuclei were detected in normal hemocytes. The number of MN was directly related to the dose of EMS. After treatment with 150 mg/l EMS and an exposure time of 10 days, MN formation was 4 times higher than without treatment. Hemocyte reactivity with the MAb 1ElO did not increase following treatment with EMS, but the percent MN formation showed a relationship with the percent leukemia cells within the clams from the field. Thus MN are generated either in response to an alkylating agent (EMS) or in response to environmental genotoxic materials.
To gain biologically and chemically safe conditions in aquatic systems, as required by the EU Wat... more To gain biologically and chemically safe conditions in aquatic systems, as required by the EU Water Framework Directive, advanced oxidation processes are the only conceivable possibility to remove pharmaceuticals and their metabolites from waste water. Water treatment plants are not designed for the complete mineralization of these substances, so that oxidation by-products occur, whose chemical and toxicological properties are often unknown. In this study an UV-oxidation system with and without H2O2 was tested to optimize the elimination of pharmaceuticals, and replenished with toxicological investigations of untreated and oxidatively treated samples. The substances carbamazepine, metoprolol, amidotrizoic acid, diclofenac, and sulfamethoxazole were used as lead compounds. They were studied separately and as a substance mixture. The UV-system had a low-pressure lamp with an emission wavelength of 254 nm and a maximum UV output of 15 W. The sample volume was 1 L with a flow rate of 0....
Journal of Toxicology and Environmental Health, Part A, 2021
ABSTRACT The aim of this interdisciplinary research project in North Rhine-Westphalia (NRW), Germ... more ABSTRACT The aim of this interdisciplinary research project in North Rhine-Westphalia (NRW), Germany, entitled “Elimination of pharmaceuticals and organic micropollutants from waste water” involved the conception of cost-effective and innovative waste-water cleaning methods. In this project in vitro assays, in vivo assays and chemical analyses were performed on three municipal waste-water treatment plants (WWTP). This publication focuses on the study of the in vitro bioassays. Cytotoxic, estrogenic, genotoxic and mutagenic effects of the original as well as enriched water samples were monitored before and after wastewater treatment steps using MTT and PAN I, ER Calux and A-YES, micronucleus and Comet assays as well as AMES test. In most cases, the measured effects were reduced after ozonation, but in general, the biological response depended upon the water composition of the WWTP, in particular on the formed by-products and concentration of micropollutants. In order to be able to assess the genotoxic and/or mutagenic potential of waste-water samples using bioassays like Ames test, Comet assay or micronucleus test an enrichment of the water sample via solid-phase extraction is recommended. This is in agreement with previous studies such as the “ToxBox”-Project of the Environmental Agency in Germany.
International Journal of Hygiene and Environmental Health, 2019
Endocrine active substances (EAS), which are commonly used in pharmaceuticals and personal care p... more Endocrine active substances (EAS), which are commonly used in pharmaceuticals and personal care products, are released into surface water mainly through WWTP effluents and have been shown to cause adverse effects in aquatic organisms. In wastewater, a variety of EAS with different hormonal activities is present, which can lead to additive effects or mask an endocrine activity. To investigate hormonal combination effects, with a focus on estrogen and androgen-modulators, influent samples from municipal and hospital wastewater treatmenr plants were spiked with 17α-ethinylestradiol, toremifene, 17α-methyltestosterone and bicalutamide and analyzed using in vitro reporter gene CALUX assays. All wastewaters caused endocrine activities in human cells, which were modified by adding one or several endocrine active substances. As expected, estrogenic activity was reduced in presence of the anti-estrogenic toremifene and androgenic activity decreased with the anti-androgen bicalutamide. In general, substance addition caused a similar trend in altered endocrine activities; however, their intensities differed between the wastewaters. Our results indicate that masking effects, leading to a suppressed biological signal, are of significant importance in the assessment of complex water samples, and combination effects rather than single substances determine the final biological effect. This emphasizes the need of effectbased tools in the assessment of water samples.
In case problematic organic substances, like pharmaceuticals and personal care products, cannot b... more In case problematic organic substances, like pharmaceuticals and personal care products, cannot be eliminated during wastewater treatment, they can reach surface waters and harm the environment and have adverse effects on human health already at low concentrations of the substance. The amount of micropollutants in surface waters is steadily growing [1]. Micropollutants occur in surface water samples at concentrations in the pico-, nano- or micromolar range, thus, there is a need of as sensitive biological test systems as possible to detect toxic effects. Different genotoxicity tests are available and have been already implemented, therein the micronucleus assay proposed by the German Umweltbundesamt in 2003 [2] and the umu-test for mutagenicity testing required by the waste water guideline [3]. In this study four genotoxicity tests with different endpoints were compared for their sensitivity to detect effects induced by different chemical substances that are commonly used as positiv...
Uploads
Papers by Elke Dopp