110 research outputs found

    The relationship between sulfur metabolism and tolerance of hexavalent chromium in Scenedesmus acutus (Spheropleales): Role of ATP sulfurylase

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    Sulfur availability and the end products of its metabolism, cysteine, glutathione and phytochelatins, play an important role in heavy metal tolerance, chromium included. Sulfate and chromate not only compete for the transporters but also for assimilation enzymes and chromium tolerance in various organisms has been associated to differences in this pathway. We investigated the mechanisms of Cr(VI)-tolerance increase induced by S-starvation focusing on the role of ATP sulfurylase (ATS) in two strains of Scenedesmus acutus with different chromium sensitivity. S-starvation enhances the defence potential by increasing sulfate uptake/assimilation and decreasing chromium uptake, thus suggesting a change in the transport system. We isolated two isoforms of the enzyme, SaATS1 and SaATS2, with different sensitivity to sulfur availability, and analysed them in S-sufficient and S-replete condition both in standard and in chromium supplemented medium. SaATS2 expression is different in the two strains and presumably marks a different sulfur perception/exploitation in the Cr-tolerant. Its induction and silencing are compatible with a role in the transient tolerance increase induced by S-starvation. This enzyme can however hardly be responsible for the large cysteine production of the Cr-tolerant strain after starvation, suggesting that cytosolic rather than chloroplastic cysteine production is differently regulated in the two strains

    The use of a genetic strategy to study the role of modulation of oxidative stress by uncoupling proteins 2 and 3 in the pathogenesis of Type 2 Diabetes

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    Mitochondrial dysfunction has been implicated in the early pathogenesis of Type 2 Diabetes. The uncoupling proteins 2 and 3 are mitochondrial proteins found in man that have been implicated in protecting mammals from the effects of over-nutrition. Examination of the effect of genetic variation in the UCP2-UCP3 genetic cluster has so far been inconclusive. The aim of this thesis was to examine, using a genetic strategy, the hypothesis that the role of the uncoupling proteins 2 and 3 in the pathogenesis of Type 2 Diabetes is via modification of oxidative stress. In a prospective study of nearly 3000 men the risk of type 2 diabetes at 10 years was increased for both the UCP2-866AA (1.94 [1.18-3.19]: p=0.009) and the UCP3-55TT (2.06 [1.06-3.99]: p=0.03) homozygotes. This increased risk was not explained by the association with any measured conventional risk factors. Paradoxically, in a Europe-wide cross-sectional study of 598 subjects the UCP2-866A variant was associated with lower waist-hip ratio (GX v AA,1.00 [0.06] v 0.98 [0.07]; p=0.003), although also associated with lower insulin secretion (42.6 [24.6] v 35.6 [18.6]; p=0.03). The UCP3 variant was not significantly associated with any metabolic trait. The significant heritability of plasma markers of oxidative stress (TAS 0.54, TOAS 0.49) suggests anti-oxidant function is a plausible mechanism to determine Type 2 Diabetes risk. The predictors of anti-oxidant stress in a family study were examined, as was the impact of UCP2-UCP3 gene cluster variation. Genetic variation in the UCP2-UCP3 was found to increase the risk of the Type 2 diabetes. While UCP2 may modify insulin secretion directly, the mechanism of action for UCP3 is likely to involve novel risk factors for Type 2 Diabetes such as modification of mitochondrial oxidative stress. Finally, the development of a human model is described to examine genetic influences on oxidative stress burden using a meal rich in used cooking oil.EThOS - Electronic Theses Online ServiceGBUnited Kingdo

    USE OF CAGED MUSSEL MYTILUS GALLOPROVINCIALIS IN AN ECOTOXICOLOGICAL APPROACH TO ASSESS ENVIRONMENTAL IMPACT IN OFF-SHORE ACTIVITIES

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    Abstract Mediterranean mussels, Mytilus galloprovincialis, are well recognized bioindicator organisms which can be easily caged in investigated areas to assess the impact of anthropogenic activities. In this work a monitoring protocol was developed for off-shore installations in the Adriatic sea. Integration of chemical analyses with a wide range of biomarkers analysed in mussels caged at 2 platforms, allowed to evaluate the biological disturbance and confirmed the utility of the ecotoxicological approach for monitoring off-shore activities. Keywords : Bio-indicators, Adriatic Sea. Several environmental issues are associated with the off-shore oil and gas industry, from the impact caused during installation to various form of disturbance related to daily ship traffic, extraction activities, maintenance of structures and, finally, decommissioning of old platforms. During the last year a monitoring protocol with caged mussels, Mytilus galloprovincialis, has been developed, to evaluate the potential ecotoxicological effects caused from the off-shore platform "Giovanna" in the Adriatic sea. Obtained results allowed to exclude marked biological disturbance and demonstrated the suitability of this approach. In this respect considering "Giovanna" as model platform, the monitoring protocol with caged mussel has been extended including also another off-shore installation, the "Emilio" platform. In this work native mussels were collected on a seasonal basis from a reference site on the Adriatic coast (Portonovo, Ancona) and transplanted for 4-6 weeks in both the sampling area and to the investigated platform "Giovanna" (42 • 46' 060N, 14 • 27' 750E) and Emilio (42 • 56' 305 N; 14 • 13' 915 E). After the translocation period, mussels were recovered dissected tissues frozen in liquid nitrogen and maintained at -80 • C until analyses. Chemical analyses on trace metals (arsenic, cadmium, chromium, copper, iron, mercury, manganese, nickel, lead, zinc) in mussels tissues An overall evaluation of results confirmed the absence of marked biological effects caused by the activities of "Giovanna" platform, as already demonstrated during the previous monitoring project. More variations were observed in mussels translocated to "Emilio", i.e. higher activities of glutathione S-transferases, catalase and peroxisomal proliferation decrease of oxyradical scavenging capacity toward hydroxyl and peroxyl radicals and lysosomal destabilization (inhibition of neutral red retention time), indicating an onset of impairment condition in the organisms. Compared to mussels transplanted at the reference site, those from "Emilio" platform did not exhibit more elevated concentrations for the various metals and only for zinc and cadmium an higher bioavailability was detected close to the platform, suggesting the influence of galvanic anodes for cathodic protection. The overall results of this work confirmed the utility of using caged mussels as an additional contribution for monitoring off-shore activities and provided an ecotoxicological protocol based on cellular biomarkers for the early detection of biological disturbance

    Long-lasting effects of chronic exposure to chemical pollution on the hologenome of the Manila clam

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    Chronic exposure to pollutants affects natural populations, creating specific molecular and biochemical signatures. In the present study, we tested the hypothesis that chronic exposure to pollutants might have substantial effects on the Manila clam hologenome long after removal from contaminated sites. To reach this goal, a highly integrative approach was implemented, combining transcriptome, genetic and microbiota analyses with the evaluation of biochemical and histological profiles of the edible Manila clam Ruditapes philippinarum, as it was transplanted for 6 months from the polluted area of Porto Marghera (PM) to the clean area of Chioggia (Venice lagoon, Italy). One month post‐transplantation, PM clams showed several modifications to its resident microbiota, including an overrepresentation of the opportunistic pathogen Arcobacter spp. This may be related to the upregulation of several immune genes in the PM clams, potentially representing a host response to the increased abundance of deleterious bacteria. Six months after transplantation, PM clams demonstrated a lower ability to respond to environmental/physiological stressors related to the summer season, and the hepatopancreas‐associated microbiota still showed different compositions among PM and CH clams. This study confirms that different stressors have predictable effects in clams at different biological levels and demonstrates that chronic exposure to pollutants leads to long‐lasting effects on the animal hologenome. In addition, no genetic differentiation between samples from the two areas was detected, confirming that PM and CH clams belong to a single population. Overall, the obtained responses were largely reversible and potentially related to phenotypic plasticity rather than genetic adaptation. The results here presented will be functional for the assessment of the environmental risk imposed by chemicals on an economically important bivalve species

    Evaluation of antibiotics as a methodological procedure to inhibit free-living and biofilm bacteria in marine zooplankton culture

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    There is a problem with keeping culture medium completely or partially free from bacteria. The use of prokaryotic metabolic inhibitors, such as antibiotics, is suggested as an alternative solution, although such substances should not harm non-target organisms. Thus, the aim of this study was to assess the effectiveness of antibiotic treatments in inhibiting free-living and biofilm bacteria and their half-life in artificial marine environment using the copepod Acartia tonsa as bioindicador of non-harmful antibiotic combinations. Regarding to results, the application of 0.025 g L-1 penicillin G potassium + 0.08 g L-1 streptomycin sulphate + 0.04 g L-1 neomycin sulphate showed great potential for use in marine cultures and scientific experiments without lethal effects to non-target organisms. The effect of this combination starts within the first six hours of exposure and reduces up to 93 % the bacterial density, but the half-life is short, requiring replacement. No adverse changes in water quality were observed within 168 hours of exposure. As a conclusion, we can infer that this treatment was an effective procedure for zooplankton cultures and scientific experiments with the aim of measuring the role of free-living and biofilm in the marine community

    Metal Bioavailability in the Sava River Water

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    Metals present one of the major contamination problems for freshwater systems, such as the Sava River, due to their high toxicity, persistence, and tendency to accumulate in sediment and living organisms. The comprehensive assessment of the metal bioavailability in the Sava River encompassed the analyses of dissolved and DGT-labile metal species of nine metals (Cd, Co, Cr, Cu, Fe, Mn, Ni, Pb, and Zn) in the river water, as well as the evaluation of the accumulation of five metals (Cd, Cu, Fe, Mn, and Zn) in three organs (liver, gills, and gastrointestinal tissue) of the bioindicator organism, fish species European chub (Squalius cephalus L.).This survey was conducted mainly during the year 2006, in two sampling campaigns, in April/May and September, as periods representative for chub spawning and post-spawning. Additionally, metal concentrations were determined in the intestinal parasites acanthocephalans, which are known for their high affinity for metal accumulation. Metallothionein concentrations were also determined in three chub organs, as a commonly applied biomarker of metal exposure. Based on the metal concentrations in the river water, the Sava River was defined as weakly contaminated and mainly comparable with unpolluted rivers, which enabled the analyses of physiological variability of metal and metallothionein concentrations in the chub organs, as well as the establishment of their constitutive levels

    Variation of Basal EROD Activities in Ten Passerine Bird Species – Relationships with Diet and Migration Status

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    Inter-specific differences in animal defence mechanisms against toxic substances are currently poorly understood. The ethoxyresorufin-O-deethylase (EROD) enzyme plays an important role in defence against toxic chemicals in a wide variety of animals, and it is an important biomarker for environmental contamination. We compared basal hepatic EROD activity levels among ten passerine species to see if there is inter-specific variation in enzyme activity, especially in relation to their diet and migration status. Migratory insectivores showed higher EROD activity compared to granivores. We hypothesize that the variable invertebrate diet of migratory insectivores contains a wider range of natural toxins than the narrower diet of granivores. This may have affected the evolution of mixed function oxidases (MFO) system and enzyme activities. We further tested whether metabolic rates or relative liver size were associated with the variation in detoxification capacity. We found no association between EROD activity and relative (per mass unit) basal metabolic rate (BMR). Instead, EROD activity and relative liver mass (% of body mass) correlated positively, suggesting that a proportionally large liver also functions efficiently. Our results suggest that granivores and non-migratory birds may be more vulnerable to environmental contaminants than insectivores and migratory birds. The diet and migration status, however, are phylogenetically strongly connected to each other, and their roles cannot be fully separated in our analysis with only ten passerine species

    Synthesis of polyacrylonitrile/MWCNT composites for potential bone replacement therapy

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    Polyacrylonitrile (PAN) is a linear polymer that is used in industry to produce carbon materials. While PAN-based carbon materials demonstrate excellent mechanical properties and promote bone cell growth along their surface, their porous properties are not sufficient for cell growth and proliferation. Carbon nanotubes (CNTs) are the one of strongest material available, which themselves posses some biological properties, and have the potential to extend clinical use of the carbon materials when manufactured in form of PAN-based composite and carbonized in order to form porous fibrous mat where nanotube-nanotube junctions are cemented with carbonized PAN. The work sought to develop and characterise PAN-CNT composites in main areas: 1) production of PAN-CNT composites, 2) carbonization of obtained composites, 3) investigation of reactivity of CNTs in order to improve interaction between polymer and nanotube in composite, and 4) assessment of the biological properties in vitro cell culture. PAN was synthesised via free-radical polymerization of acrylonitrile (AN) using azobisisobutyronitrile (AIBN) as initiator, and multi-walled CNTs were produced by chemical vapour deposition. Composites were produced by addition of acid-oxidized CNTs to AN solution as PAN was precipitating in form of loose powder or buckypaper. Characterization of the composite material with FTIR and I3C NMR found that the CNTs have no dramatic influence on AN polymerization. Composites made of buckypaper soaked in AN precursor solution were found to have better PAN distribution within composite. It was found that regardless of the synthesis approach, PAN-CNT composites were found to be non-porous and therefore unsuitable for cell growth, therefore silica-based CNT composites were synthesised as prospective candidates for the bone replacement material. It was found that silica forms a thin protecting layer around CNTs, when synthesised via sol-gel transformation of the 3-aminopropyltriethoxysilane, but was not thick enough to support a continuous CNT network. Furthermore this approach was used in synthesis of magnetic CNT -silica based composites for prospective application in magnetic driven adsorption and controlled drug delivery. To optimize the composite microstructure the CNT sidewall reactivity was investigated to determine its effect on porosity of the final composite. It was found that high temperature acid oxidation of pristine CNTs lead to an increase in the number of carboxylic groups' number and therefore contribute in the CNT's sidewall reactivity. In order to create porous carbonised materials, PAN and methylmethacrylate (MMA) was formed into a copolymer (PAN-co-MMA) in which mass content of MMA was 10% wt, was derived. Carbonisation of this copolymer in an inert atmosphere and in air leads to formation of the continuous open porous structure with a pore diameter in the range from 30 to 130Îźm, which is suitable for cell penetration. This was confirmed by in vitro cellular response to the PAN-co-MMA based carbon monolith was examined by culturing 3T3 mouse fibroblasts. It was also found that the copolymer under high heating rates lead to expansion and exfoliation. Examination of the resulting material shows that carbon nanomaterials produced are single- and multi- layered graphenes which may give a useful production route towards single layered graphene (SLG). This study has resulted in improved understanding of the processing of CNTs and the effect of a wide range of synthetic approaches on the final materials characteristics. The interesting preliminary results were obtained in the areas of CNTs reactivity, formation of magnetically driven adsorbents, and potential biological behaviour of porous carbonized PAN-co-MMA based monolithsEThOS - Electronic Theses Online ServiceGBUnited Kingdo
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