Caterina Ciacci

Publications

• 4.41

  Impact points

  Immunomodulation by Different Types of N-Oxides in the Hemocytes of the Marine Bivalve Mytilus galloprovincialis.

  Caterina Ciacci, Barbara Canonico, Dagmar Bilaniĉovă, Rita Fabbri, Katia Cortese, Gabriella Gallo, Antonio Marcomini, Giulio Pojana, Laura Canesi

  PloS one. 01/2012; 7(5):e36937.

  The potential toxicity of engineered nanoparticles (NPs) for humans and the environment represents an emerging issue. Since the aquatic environment represents the ultimate sink for NP deposition, the development of suitable assays is needed to evaluate the potential impact of NPs on aquatic biota. T... [more] The potential toxicity of engineered nanoparticles (NPs) for humans and the environment represents an emerging issue. Since the aquatic environment represents the ultimate sink for NP deposition, the development of suitable assays is needed to evaluate the potential impact of NPs on aquatic biota. The immune system is a sensitive target for NPs, and conservation of innate immunity represents an useful basis for studying common biological responses to NPs. Suspension-feeding invertebrates, such as bivalves, are particularly at risk to NP exposure, since they have extremely developed systems for uptake of nano and microscale particles integral to intracellular digestion and cellular immunity. Evaluation of the effects of NPs on functional parameters of bivalve immunocytes, the hemocytes, may help understanding the major toxic mechanisms and modes of actions that could be relevant for different NP types in aquatic organisms.In this work, a battery of assays was applied to the hemocytes of the marine bivalve Mytilus galloprovincialis to compare the in vitro effects of different n-oxides (n-TiO(2), n-SiO(2), n-ZnO, n-CeO(2)) chosen on the basis of their commercial and environmental relevance. Physico-chemical characterization of both primary particles and NP suspensions in artificial sea water-ASW was performed. Hemocyte lysosomal and mitochondrial parameters, oxyradical and nitric oxide production, phagocytic activity, as well as NP uptake, were evaluated. The results show that different n-oxides rapidly elicited differential responses hemocytes in relation to their chemical properties, concentration, behavior in sea water, and interactions with subcellular compartments. These represent the most extensive data so far available on the effects of NPs in the cells of aquatic organisms. The results indicate that Mytilus hemocytes can be utilized as a suitable model for screening the potential effects of NPs in the cells of aquatic invertebrates, and may provide a basis for future experimental work for designing environmentally safer nanomaterials.
• 3.12

  Impact points

  “Effects of sub-lethal, environmentally relevant concentrations of hexavalent Chromium in the gills of Mytilus galloprovincialis”

  C. Ciacci, C. Barmo, G. Gallo, M. Maisano, T. Cappello, A. D'Agata, C. Leonzio, A. Mauceri, S. Fasulo, L. Canesi

  Aquatic Toxicology. 01/2012;
• 2.89

  Impact points

  Immunomodulation in Mytilus galloprovincialis by non-toxic doses of hexavalent chromium.

  C Ciacci, C Barmo, R Fabbri, B Canonico, G Gallo, L Canesi

  Fish & shellfish immunology. 09/2011; 31(6):1026-33.

  In aquatic organisms, the immune function can be affected by exposure to environmental pollutants, including heavy metals. In vertebrate systems, different forms of Cr have been shown induce either immunostimulatory or immunosuppressive processes. Hexavalent Cr, Cr(VI), is an important contaminant r... [more] In aquatic organisms, the immune function can be affected by exposure to environmental pollutants, including heavy metals. In vertebrate systems, different forms of Cr have been shown induce either immunostimulatory or immunosuppressive processes. Hexavalent Cr, Cr(VI), is an important contaminant released from both domestic and industrial effluents, and the predominant chemical form of the metal in aquatic ecosystems. In this work, the in vitro and in vivo effects of Cr(VI) on immune parameters of the marine bivalve Mytilus galloprovincialis were evaluated. Hemocyte incubation with different concentrations of Cr(VI) (0.1-1-10-100 μM) induced a dose-dependent decrease in lysosomal membrane stability (LMS). Decreases in extracellular lysozyme release and phagocytic activity were also observed, with stronger effects at lower metal concentrations. On the other hand, in these conditions, Cr(VI) stimulated extracellular superoxide production and nitrite accumulation. The effects of Cr(VI) were also evaluated in mussels exposed to the metal (0.1-1-10 μg L(-1), corresponding to nanomolar concentrations) for 96 h. Decreases in hemocyte LMS values and in serum lysozyme activity were observed with increasing metal concentrations. Decreased phagocytic activity and increased NO production were recorded, with stronger effects at lower concentrations. In these conditions, decreased Total Hemocyte Counts (THC), but no necrotic/apoptotic processes were observed. Moreover, Cr(VI) at both 0.1 and 1 μg L(-1) seemed to induce significant changes in transcription of immune genes (lysozyme, Mytilin C, Myticin B, defensin, MgC1q), of the serotonin receptor (5-HTR) and of the stress protein HSP70, whereas that of the anti-apoptotic gene p53 was unaffected. Overall, the results indicate that exposure to non-toxic, environmentally relevant concentrations of Cr(VI) can modulate functional and molecular immune parameters in M. galloprovincialis.
• 1.76

  Impact points

  Bivalve molluscs as an unique target group for nanoparticle toxicity.

  Laura Canesi, Caterina Ciacci, Rita Fabbri, Antonio Marcomini, Giulio Pojana, Gabriella Gallo

  Marine environmental research. 06/2011;

  Due to the continuous development and production of manufactured nanomaterials or nanoparticles (NPs), their uptake and effects in the aquatic biota represent a major concern. Estuarine and coastal environments are expected to represent the ultimate sink for NPs, where their chemical behavior (aggre... [more] Due to the continuous development and production of manufactured nanomaterials or nanoparticles (NPs), their uptake and effects in the aquatic biota represent a major concern. Estuarine and coastal environments are expected to represent the ultimate sink for NPs, where their chemical behavior (aggregation/agglomeration) and consequent fate may be critical in determining the biological impact. Bivalve mollusks are abundant from freshwater to marine ecosystems, where they are widely utilized in biomonitoring of environmental perturbations. As suspension-feeders, they have highly developed processes for cellular internalization of nano- and micro-scale particles (endo- and phagocytosis), integral to key physiological functions such as intra-cellular digestion and cellular immunity. Here we will summarise available information on the effects of different types of NPs in different bivalve species, in particular Mytilus spp. Data on the effects and modes of action of different NPs on mussel hemocytes in vitro demonstrate that cell-mediated immunity represents a significant target for NPs. Moreover, in vivo exposure to NPs indicates that, due to the physiological mechanisms involved in the feeding process, NP agglomerates/aggregates taken up by the gills are directed to the digestive gland, where intra-cellular uptake of nanosized materials induces lysosomal perturbations and oxidative stress. Overall, bivalves represent a particularly suitable model for investigating the effects and mechanisms of action underlying the potential toxicity of NPs in marine invertebrates.
• 3.25

  Impact points

  Pleiotropic effects of hexavalent chromium (CrVI) in Mytilus galloprovincialis digestive gland.

  Cristina Barmo, Caterina Ciacci, Rita Fabbri, Silvia Olivieri, Nicola Bianchi, Gabriella Gallo, Laura Canesi

  Chemosphere. 02/2011; 83(8):1087-95.

  Hexavalent Chromium Cr(VI) is an important contaminant considered as a model oxidative toxicant released from both domestic and industrial effluents, and represents the predominant chemical form of the metal in aquatic ecosystems. On the other hand, in mammals the reduced form Cr(III) is considered ... [more] Hexavalent Chromium Cr(VI) is an important contaminant considered as a model oxidative toxicant released from both domestic and industrial effluents, and represents the predominant chemical form of the metal in aquatic ecosystems. On the other hand, in mammals the reduced form Cr(III) is considered an essential microelement, involved in regulation of lipid and carbohydrate metabolism; moreover, recent evidence suggests that Cr may have endocrine effects. In this work, the effects of Cr(VI) were investigated in the digestive gland of the marine bivalve Mytilus galloprovincialis. Mussels were exposed to 0.1-1-10-100 μg Cr(VI) L(-1) animal(-1) for 96 h. At 100 μg L(-1), a large increase in total Cr tissue content was observed; in these conditions, the lysosomal membranes were completely destabilized, whereas other lysosomal biomarkers (neutral lipids-NL and lipofuscin-LF), as well as different enzyme activities and gene expression were unaffected, this indicating severe stress conditions in the tissue. On the other hand, at lower concentrations, changes in other histochemical, biochemical and molecular endpoints were observed. In particular, at both 1 and 10 μg L(-1), lysosomal destabilization was associated with significant NL and LF accumulation; however, no changes in catalase and GSH transferase (GST) activities were observed. At the same concentrations, GSSG reductase (GSR) activity was significantly increased, this probably reflecting the recycling of GSSG produced in the GSH-mediated intracellular reduction of Cr(VI). Increased activities of the key glycolytic enzymes PFK (phosphofructokinase) and PK (pyruvate kinase) were also observed, indicating that Cr(VI) could affect carbohydrate metabolism. Cr(VI) induced downregulation or no effects on the expression of metallothioneins MT10 and MT20, except for an increase in MT20 transcription in males. Moreover, significant up-regulation of the Mytilus estrogen receptor MeER2 and serotonin receptor (5-HTR) were observed in both sexes. The results demonstrate that exposure to Cr(VI) in the low ppb range did not result in strong toxicity or oxidative stress conditions in mussel digestive gland. On the other hand, our data support the hypothesis that low concentrations of the metal can exert pleiotropic effects on mussel physiology, from modulation of lipid and carbohydrate metabolism, to effects on the expression of estrogen-responsive genes.
• 1.81

  Impact points

  Specificity of anti-Vibrio immune response through p38 MAPK and PKC activation in the hemocytes of the mussel Mytilus galloprovincialis.

  Caterina Ciacci, Michele Betti, Barbara Canonico, Barbara Citterio, Philippe Roch, Laura Canesi

  Journal of invertebrate pathology. 09/2010; 105(1):49-55.

  In mussel (Mytilus sp.) hemocytes, differential functional responses to injection with different types of live and heat-killed Vibrio species have been recently demonstrated. In this work, responses of Mytilus hemocytes to heat-killed Vibrio splendidus LGP32 and the mechanisms involved were investig... [more] In mussel (Mytilus sp.) hemocytes, differential functional responses to injection with different types of live and heat-killed Vibrio species have been recently demonstrated. In this work, responses of Mytilus hemocytes to heat-killed Vibrio splendidus LGP32 and the mechanisms involved were investigated in vitro and the results were compared with those obtained with Vibrio anguillarum (ATCC 19264). Adhesion of hemocytes after incubation with bacteria was evaluated by flow cytometry: both total hemocyte counts (THC) and percentage of hemocyte sub-populations were determined in non-adherent cells. Functional parameters such as lysosomal membrane stability, lysozyme release, extracellular ROS production and NO production were evaluated, as well as the phosphorylation state of the stress-activated p38 MAPK and PKC. Neither Vibrio affected total hemocyte adhesion, while both induced similar lysosomal destabilization and NO production. However, V. splendidus decreased adhesion of large granulocytes, induced rapid and persistent lysozyme release and stimulated extracellular ROS production: these effects were associated with persistent activation of p38 MAPK and PKC. In contrast, V. anguillarum decreased adhesion of large semigranular hemocytes and increased that of hyalinocytes, had no effect on the extracellular ROS production, and induced significantly lower lysozyme release and phosphorylation of p-38 MAPK and PKC than V. splendidus. These data reinforced the existence of specific interactions between mussel hemocytes and V. splendidus LGP32 and suggest that this Vibrio strain affects bivalve hemocytes through disregulation of immune signaling. The results support the hypothesis that responses of bivalve hemocytes to different bacterial stimuli may depend not only on the nature of the stimulus, but also on the cell subtype, thus leading to differential activation of signaling components.
• 2.58

  Impact points

  Effects of vibrio challenge on digestive gland biomarkers and antioxidant gene expression in Mytilus galloprovincialis.

  Laura Canesi, Cristina Barmo, Rita Fabbri, Caterina Ciacci, Laura Vergani, Philippe Roch, Gabriella Gallo

  Comparative biochemistry and physiology. Toxicology & pharmacology : CBP. 09/2010; 152(3):399-406.

  In bivalve molluscs, responses to bacterial infection have been largely characterized in terms of both functional responses and gene expression in the immune cells, the hemocytes. The effects of bacterial challenge at the tissue level, where bacterial infection may cause stressful conditions, have n... [more] In bivalve molluscs, responses to bacterial infection have been largely characterized in terms of both functional responses and gene expression in the immune cells, the hemocytes. The effects of bacterial challenge at the tissue level, where bacterial infection may cause stressful conditions, have not been so far specifically investigated. Biomarkers are widely utilised to evaluate the health status of bivalves, from the molecular to the organism level, in response to both natural and anthropogenic stressors. In this work, the effects of in vivo challenge with heat-killed vibrio species, Vibrio splendidus LGP32 and Vibrio anguillarum (ATCC19264), on different biomarkers in the digestive gland of the marine bivalve Mytilus galloprovincialis were investigated. Mussels were injected with either vibrio and tissues sampled at 3, 6 and 24 h post injection (p.i.). Lysosomal biomarkers, such as lysosomal membrane stability (LMS) and lipofuscin accumulation, as well as specific activities of antioxidant enzymes (catalase and glutathione transferase-GST) were evaluated. Moreover, the expression of antioxidant molecules (catalase, GST-pi and metallothioneins MT10 and MT20) was determined by quantitative RT-PCR. Both V. splendidus and V. anguillarum significantly affected all parameters measured, to a different extent and at different times p.i. Interestingly, whereas both vibrios induced lysosomal membrane destabilisation and increases in the activities of antioxidant enzymes, distinct responses were observed in terms of lysosomal lipofuscin accumulation and expression of antioxidant molecules. In particular, V. splendidus induced a general increase in the transcription of antioxidant genes, indicating that Mytilus digestive gland can mount an efficient antioxidant response towards this vibrio species. On the other hand, a general down-regulation or no effect was observed with V. anguillarum. The lack of this response was reflected in stronger oxidative stress conditions in the digestive gland of mussels challenged with V. anguillarum, as indicated by higher levels of lysosomal lipofuscin observed at longer times p.i. Overall, these data indicate that lysosomal and oxidative stress biomarkers could be usefully applied in order to monitor early changes in the health status of bivalves induced by bacteria. Moreover, the results support the hypothesis that host responses to bacteria may be taken into account when interpreting biomarker data in ecotoxicological studies.
• 3.12

  Impact points

  In vitro effects of suspensions of selected nanoparticles (C60 fullerene, TiO(2), SiO(2)) on Mytilus hemocytes.

  Laura Canesi, Caterina Ciacci, Davide Vallotto, Gabriella Gallo, Antonio Marcomini, Giulio Pojana

  Aquatic toxicology (Amsterdam, Netherlands). 10/2009;

  As the nanotechnology industries increase production, nanoscale products will enter the aquatic environment, posing a possible threat to aquatic organisms. Suspension-feeding invertebrates may represent a unique target group for nanoparticle (NP) ecotoxicity, since they have highly developed process... [more] As the nanotechnology industries increase production, nanoscale products will enter the aquatic environment, posing a possible threat to aquatic organisms. Suspension-feeding invertebrates may represent a unique target group for nanoparticle (NP) ecotoxicity, since they have highly developed processes for the cellular internalisation of nano- and microscale particles (endocytosis and phagocytosis), which are integral to key physiological functions such as intracellular digestion and cellular immunity. In the marine bivalve Mytilus, short-term exposure to nanosized carbon black (NCB) was shown to significantly affect immune parameters of immune cells, the hemocytes, in vitro. In this work, we further investigated the effects of other types of commercial NPs (C60 fullerene, TiO(2) and SiO(2) at 1, 5, 10mug/ml) on Mytilus hemocytes. Characterization of NP suspensions in artificial sea water (ASW) was performed, indicating the formation of agglomerates of different sizes for different types of NPs. None of the NP tested significantly affected lysosomal membrane stability, indicating the lack of a major toxic effect. However, all NP suspensions induced a concentration-dependent lysozyme release, extracellular oxyradical and nitric oxide (NO) production, to a different extent and with different time courses depending on the concentration and the NP type. The inflammatory effects of NPs were mediated by rapid activation of the stress-activated p38 MAPK. The results further support the hypothesis that in bivalves the immune system represents a significant target for NPs.
• 1.61

  Impact points

  Functional differential immune responses of Mytilus galloprovincialis to bacterial challenge.

  Caterina Ciacci, Barbara Citterio, Michele Betti, Barbara Canonico, Philippe Roch, Laura Canesi

  Comparative biochemistry and physiology. Part B, Biochemistry & molecular biology. 05/2009;

  Bivalves are filter-feeders that can accumulate large numbers of bacteria, in particular Vibrio species; these can persist within bivalve tissues largely depending on their sensitivity to the hemolymph bactericidal activity. In this work, functional parameters of the hemolymph of Mytilus galloprovin... [more] Bivalves are filter-feeders that can accumulate large numbers of bacteria, in particular Vibrio species; these can persist within bivalve tissues largely depending on their sensitivity to the hemolymph bactericidal activity. In this work, functional parameters of the hemolymph of Mytilus galloprovincialis were evaluated in response to in vivo challenge with different bacteria (Gram(-) Vibrio anguillarum and V. splendidus, Gram(+) Micrococcus lysodeikticus). Mussels were injected with heat-killed bacteria or PBS-NaCl (controls) and hemolymph sampled from 3 to48 h post-injection (p.i.). In hemocytes, all bacteria induced significant lysosomal membrane destabilisation (LMS) from 3 h p.i. with V. splendidus>V. anguillarum>M. lysodeikticus. LMS showed recovery for both M. lysodeikticus and V. anguillarum, whereas a further time-dependent decrease was observed for V. splendidus. Bacterial challenge also induced a rapid (from 3 h p.i.) and significant increase in serum lysozyme activity; the effect was persistent with M. lysodeikticus and transient for the two Vibrio species. In order to evaluate whether in vivo challenge may affect the subsequent capacity of hemolymph to kill bacteria, the bactericidal activity was tested in an in vitro assay towards E. coli. At 48 h. p.i. hemolymph samples from V. anguillarum-injected mussels showed a significant increase in E. coli killing (+35% with respect to controls); a smaller effect was observed with V. splendidus-injected mussels (+16%), whereas M. lysodeikticus was ineffective. Moreover, hemolymph from V. anguillarum-injected mussels showed an in vitro bactericidal activity towards V. anguillarum 2-folds higher than that of controls. Changes in total hemocyte counts (THC) and in hemocyte populations were evaluated by Flow cytometry at 6 and 48 h p.i., indicating a decrease in THC followed by recovery with all bacteria. Moreover, at 6 h p.i. a general decrease in the percentage of granulocytes was observed (V. splendidus>V. anguillarum>M. lysodeikticus), followed by complete and partial recovery with M. lysodeikticus and V. anguillarum, respectively, but not with V. splendidus. The results demonstrate the existence of differential functional immune responses in M. galloprovincialis to different bacteria.

• Seasonal changes in functional parameters of the hemolymph of Mytilus galloprovincialis

  Ciacci C, Fabbri R, Betti M, Roch P, Canesi L

  Invertebrate Survival Journal. 01/2009;

  n bivalves, many functional parameters show seasonal changes in relation to both abiotic (such as temperature and salinity) and biotic factors (such as gonad maturation, food availability). Available data indicate that also immune parameters can show seasonal fluctuations in the marine mussel Mytilu... [more] n bivalves, many functional parameters show seasonal changes in relation to both abiotic (such as temperature and salinity) and biotic factors (such as gonad maturation, food availability). Available data indicate that also immune parameters can show seasonal fluctuations in the marine mussel Mytilus spp.. In this work we report data on hemocyte lysosomal membrane stability (LMS) and phagocytic activity, as well as on soluble lysozyme activity, in the hemolymph of mussels (Mytilus galloprovincialis) collected over a 24 month period in the Adriatic Sea (2006-2007). The results indicate that all the parameters measured show seasonal fluctuations over the year, with lysozyme activity showing the largest changes. Lowest LMS values were observed in early winter and early autumn, whereas maximal values of phagocytic activity were observed in winter and increasing serum lysozyme activities were recorded in autumn. The observed seasonal fluctuations are discussed in relation to both abiotic (temperature) and biotic (changes in endogenous modulators) factors.
• 3.12

  Impact points

  Short-term effects of environmentally relevant concentrations of EDC mixtures on Mytilus galloprovincialis digestive gland.

  Laura Canesi, Cristina Borghi, Caterina Ciacci, Rita Fabbri, Lucia Cecilia Lorusso, Laura Vergani, Antonio Marcomini, Giulio Poiana

  Aquatic toxicology (Amsterdam, Netherlands). 06/2008; 87(4):272-9.

  Endocrine disrupting compounds (EDCs), including both natural estrogens and estrogenic chemicals, are almost ubiquitous in the aquatic environment. In the marine bivalve Mytilus galloprovincialis different estrogenic compounds, both individually and in mixtures, were shown to affect the immune funct... [more] Endocrine disrupting compounds (EDCs), including both natural estrogens and estrogenic chemicals, are almost ubiquitous in the aquatic environment. In the marine bivalve Mytilus galloprovincialis different estrogenic compounds, both individually and in mixtures, were shown to affect the immune function both in vitro and in vivo. Moreover, individual estrogens, the natural estrogen 17beta-estradiol (E(2)) and the xenoestrogen bisphenol A (BPA), have been recently demonstrated to alter functional parameters and gene expression in mussel digestive gland, a tissue that plays a central role in metabolism and in nutrient distribution to the gonad during gamete maturation, with possible consequences on gametogenesis. In this work, the possible effects of a synthetic mixture of EDCs on the digestive gland were evaluated. The mixture contained seven estrogenic chemicals (17beta-estradiol, 17alpha-ethynyl estradiol, mestranol (MES), nonylphenol, nonylphenol monoethoxylate carboxylate (NP1EC), BPA, benzophenone (BP)), in proportions similar to those previously found in water samples of a coastal lagoon. Mussels were injected with different concentrations of the mixture (approximate nominal concentrations of total EDCs: 0.0177, 0.177, 1.77 and 177 ng/g dw) and tissues sampled 24 h post-injection. The mixture induced significant changes in lysosomal biomarkers (lysosomal membrane stability (LMS), neutral lipid (NL) and lipofuscin (LF) accumulation) as well as in the activities of catalase, glutathione transferase (GST), and of the glycolytic enzymes phosphofructokinase (PFK) and pyruvate kinase (PK). Moreover, downregulation of the gene transcription for the Mytilus estrogen receptor MeER1 isoform and for catalase, as evaluated by quantitative RT-PCR, were observed. Significant changes in lysosomal biomarkers, enzyme activities and gene transcription were also recorded at 72 h post-injection. The results demonstrate that short-term exposure to environmentally relevant concentrations of EDC mixtures can interfere with the lysosomal function, redox-related enzyme activities and gene transcription of mussel digestive gland.
• 4.79

  Impact points

  Immunotoxicity of carbon black nanoparticles to blue mussel hemocytes.

  Laura Canesi, Caterina Ciacci, Michele Betti, Rita Fabbri, Barbara Canonico, Andrea Fantinati, Antonio Marcomini, Giulio Pojana

  Environment international. 06/2008;

  The potential for human and ecological toxicity associated with nanomaterials is a growing area of investigation. In mammalian cells, nanoparticles have been shown to induce inflammation and oxidative stress, and changes in cell signalling and gene expression. As the nanotechnology industries increa... [more] The potential for human and ecological toxicity associated with nanomaterials is a growing area of investigation. In mammalian cells, nanoparticles have been shown to induce inflammation and oxidative stress, and changes in cell signalling and gene expression. As the nanotechnology industries increase production, nanoscale products and by products will enter the aquatic environment, posing a possible threat to aquatic organisms. In particular, filter-feeding organisms may represent a unique target group for nanoparticle toxicology. In this work, the effects of commercial nanosized carbon black (NCB) on the immune cells, the hemocytes, of the bivalve mollusc Mytilus, and the possible mechanisms involved were investigated. The results demonstrate that NCB (1, 5, and 10 microg/ml), did not induce significant lysosomal membrane destabilization, as evaluated by the NR retention time assay. A concentration-dependent uptake of NCB by hemocytes was observed and it was associated by a rapid increase in extracellular lysozyme release, extracellular oxyradical production, and nitric oxide (NO) release. Moreover, at the highest concentration tested, NCB induced significant changes in mitochondrial parameters (decrease mitochondrial mass/number and membrane potential), as evaluated by flow cytometry. The effects of NCB were mediated by rapid activation of the stress-activated MAPKs (Mitogen Activated Protein Kinases) p38 and JNKs, that play a key role in immune and inflammatory responses. The results demonstrate that in mussel hemocytes like in mammalian cells NCB exposure can induce inflammatory processes, and indicate that bivalve immunocytes can represent a suitable model for investigating the effects and modes of action of nanoparticles in the cells of aquatic invertebrates.
• 3.25

  Impact points

  Effects of blood lipid lowering pharmaceuticals (bezafibrate and gemfibrozil) on immune and digestive gland functions of the bivalve mollusc, Mytilus galloprovincialis.

  L Canesi, L C Lorusso, C Ciacci, M Betti, F Regoli, G Poiana, G Gallo, A Marcomini

  Chemosphere. 11/2007; 69(6):994-1002.

  Fibrates are hypolipidemic pharmaceuticals that have been detected as contaminants in wastewaters and surface waters. In this work, the possible effects of two fibrates, Bezafibrate (BEZA) and Gemfibrozil (GEM) in the bivalve mollusc Mytilus spp were investigated. In the immune cells, the hemocytes,... [more] Fibrates are hypolipidemic pharmaceuticals that have been detected as contaminants in wastewaters and surface waters. In this work, the possible effects of two fibrates, Bezafibrate (BEZA) and Gemfibrozil (GEM) in the bivalve mollusc Mytilus spp were investigated. In the immune cells, the hemocytes, addition of both compounds in vitro induced rapid lysosomal membrane destabilization, extracellular lysozyme release, NO production and decreased phagocytic activity. The effect of fibrates were partly mediated by activation of ERK and p38 MAPKs (Mitogen Activated Protein Kinases), as demonstrated by the use of specific inhibitors of different kinases. The effects of fibrates on hemocyte function were confirmed in vivo, in the hemocytes of mussels injected with 0.01, 0.1 and 1 nmol/animal (corresponding to nominal concentrations of 3.61, 36.18 and 361.8ng/g dry weight for BEZA and of 2.50, 25.03 and 250.35 ng/g dry weight for GEM, respectively) and sampled at 24h post-injection. Both compounds induced a concentration-dependent lysosomal destabilization and extracellular lysozyme release; an increase in phagocytosis was observed at the highest concentration. In vivo exposure to fibrates also induced significant effects on mussel digestive gland, the key metabolic organ in bivalves. Both BEZA and GEM increased the activity of the glycolytic enzymes phosphofructokinase (PFK) and pyruvate kinase (PK), and of Glutathione transferase (GST) glutathione reductase (GSR), and total glutathione content. A significant increase in the peroxisomal enzyme catalase was observed; however, BEZA exposure decreased Palmytoyl CoA oxidase activity, whereas GEM was ineffective. The results indicate that in mussels environmental concentrations of hypolipidemic drugs can affect the immune function, as well as glycolysis, redox balance and peroxisomal function.
• 3.50

  Impact points

  Bisphenol-A alters gene expression and functional parameters in molluscan hepatopancreas.

  Laura Canesi, Cristina Borghi, Caterina Ciacci, Rita Fabbri, Laura Vergani, Gabriella Gallo

  Molecular and cellular endocrinology. 10/2007; 276(1-2):36-44.

  Bisphenol-A (BPA) is a well-known xenoestrogen in mammalian systems that can affect reproduction also in aquatic organisms. In this work the possible effects of BPA were investigated in the hepatopancreas of the bivalve mollusc Mytilus galloprovincialis: mussels were injected with different amounts ... [more] Bisphenol-A (BPA) is a well-known xenoestrogen in mammalian systems that can affect reproduction also in aquatic organisms. In this work the possible effects of BPA were investigated in the hepatopancreas of the bivalve mollusc Mytilus galloprovincialis: mussels were injected with different amounts of BPA (3-60ng/g dw tissue) and tissues sampled at 24h post-injection. Expression of different Mytilus genes was evaluated by RT-Q-PCR: BPA exposure increased the expression of MeER2 and induced downregulation of antioxidant genes, catalase and metallothioneins. Moreover, BPA induced changes in activity of catalase, GSH transferase (GST) and GSSG reductase (GSR), and in total glutathione content. A decrease in lysosomal membrane stability and increased neutral lipid accumulation were also observed. The results were compared with those obtained with similar concentrations of 17beta-estradiol. These data demonstrate that BPA can alter gene expression, activities of enzymes involved in redox balance, and lysosomal function in molluscan hepatopancreas, a tissue involved in the control of metabolism and gamete maturation. Overall, these data indicate that BPA, at environmentally relevant concentrations, can have both estrogen-like and distinct effects in invertebrates like in vertebrates.
• 2.58

  Impact points

  Effects of Triclosan on Mytilus galloprovincialis hemocyte function and digestive gland enzyme activities: possible modes of action on non target organisms.

  Laura Canesi, Caterina Ciacci, Lucia Cecilia Lorusso, Michele Betti, Gabriella Gallo, Giulio Pojana, Antonio Marcomini

  Comparative biochemistry and physiology. Toxicology & pharmacology : CBP. 05/2007; 145(3):464-72.

  Pharmaceuticals and Personal Care Products (PPCPs) are a class of emerging environmental pollutants with the potential of affecting various aquatic organisms through unexpected modes of action. Triclosan (2,4,4'-trichloro-2'-hydroxydiphenyl ether) (TCS), is a common antibacterial agent that ... [more] Pharmaceuticals and Personal Care Products (PPCPs) are a class of emerging environmental pollutants with the potential of affecting various aquatic organisms through unexpected modes of action. Triclosan (2,4,4'-trichloro-2'-hydroxydiphenyl ether) (TCS), is a common antibacterial agent that is found in significant amounts in the aquatic environment. In this work, the possible effects and modes of action of TCS were investigated in the marine bivalve Mytilus galloprovincialis Lam. In mussel immune cells, the hemocytes, in vitro short-term exposure to TCS in the low microM range reduced lysosomal membrane stability (LMS) and induced extracellular release of lysosomal hydrolytic enzymes. The effects on LMS were mediated by activation of ERK MAPKs (Extracellularly Regulated Mitogen Activated Protein Kinases) and PKC (protein kinase C) alpha and betaII isoforms, as demonstrated by both specific kinase inhibitors and Western blotting with specific anti-phospho-antibodies. The effects of TCS were confirmed in vivo, in the hemocytes of mussels injected with different concentrations of TCS (corresponding to 0.29, 2.9 and 29 ng/g dry weight) and sampled at 24 h post-injection. The possible in vivo effects of TCS were also evaluated on the activity of different enzymes in the digestive gland, the tissue mainly involved in accumulation and metabolism of organic contaminants in mussels. Significant increases were observed in the activity of the glycolytic enzymes PFK (phosphofructokinase) and PK (pyruvate kinase), as well as of GST (GSH transferase) and GSR (GSSG reductase), whereas a decrease in catalase activity was observed. The results demonstrate that in mussels TCS can act on kinase-mediated cell signalling, lysosomal membranes and redox balance in different systems/organs. Although further studies are needed in order to evaluate possible consequences of environmental exposure to TCS on mussel health, the results represent the first data on the possible modes of action of this widespread antibacterial in aquatic invertebrates.
• 3.12

  Impact points

  Immunomodulation of Mytilus hemocytes by individual estrogenic chemicals and environmentally relevant mixtures of estrogens: in vitro and in vivo studies.

  Laura Canesi, Lucia Cecilia Lorusso, Caterina Ciacci, Michele Betti, Marco Rocchi, Giulio Pojana, Antonio Marcomini

  Aquatic toxicology (Amsterdam, Netherlands). 03/2007; 81(1):36-44.

  Endocrine disrupting compounds (EDCs) are almost ubiquitous in the aquatic environment. In the marine bivalve Mytilus the natural estrogen 17beta-estradiol (E2) and different EDCs have been recently demonstrated to affect the function of the immune cells, the hemocytes. The effects were Tamoxifen-se... [more] Endocrine disrupting compounds (EDCs) are almost ubiquitous in the aquatic environment. In the marine bivalve Mytilus the natural estrogen 17beta-estradiol (E2) and different EDCs have been recently demonstrated to affect the function of the immune cells, the hemocytes. The effects were Tamoxifen-sensitive and were mediated by rapid modulation of kinase-mediated transduction pathways. In this work we compared the in vitro effects of individual estrogenic chemicals (E2, EE: 17alpha-ethynyl estradiol; MES: mestranol; NP: nonylphenol; NP1EC: nonylphenol monoethoxylate carboxylate; BPA: bisphenol A; BP: benzophenone) on hemocyte parameters: lysosomal membrane stability (LMS), phagocytosis, lysozyme release. LMS was the most sensitive effect parameter, showing a decreasing trend at increasing concentrations of estrogens. EC50 values obtained from LMS data were utilized to calculate the estradiol equivalency factor (EEF) for each compound; these EEFs allowed for an estimation of the estrogenic potential of a synthetic mixture with a composition very similar to that previously found in waters of the Venice lagoon. Concentrated mixtures significantly affected hemocyte parameters in vitro and the effects were prevented by Tamoxifen. Significant effects of the mixture were also observed in vivo, at longer exposure times and at concentrations comparable with environmental exposure levels. The results indicate that Mytilus immune parameters can be suitably utilized to evaluate the estrogenic potential of environmental samples.
• 3.06

  Impact points

  Immunomodulation by 17beta-estradiol in bivalve hemocytes.

  Laura Canesi, Caterina Ciacci, Lucia Cecilia Lorusso, Michele Betti, Tiziana Guarnieri, Simona Tavolari, Gabriella Gallo

  American journal of physiology. Regulatory, integrative and comparative physiology. 10/2006; 291(3):R664-73.

  In mammals, estrogens have dose- and cell-type-specific effects on immune cells and may act as pro- and anti-inflammatory stimuli, depending on the setting. In the bivalve mollusc Mytilus, the natural estrogen 17beta-estradiol (E(2)) has been shown to affect neuroimmune functions. We have investigat... [more] In mammals, estrogens have dose- and cell-type-specific effects on immune cells and may act as pro- and anti-inflammatory stimuli, depending on the setting. In the bivalve mollusc Mytilus, the natural estrogen 17beta-estradiol (E(2)) has been shown to affect neuroimmune functions. We have investigated the immunomodulatory role of E(2) in Mytilus hemocytes, the cells responsible for the innate immune response. E(2) at 5-25 nM rapidly stimulated phagocytosis and oxyradical production in vitro; higher concentrations of E(2) inhibited phagocytosis. E(2)-induced oxidative burst was prevented by the nitric oxide (NO) synthase inhibitor N(G)-monomethyl-L-arginine and superoxide dismutase, indicating involvement of NO and O(2)(-); NO production was confirmed by nitrite accumulation. The effects of E(2) were prevented by the antiestrogen tamoxifen and by specific kinase inhibitors, indicating a receptor-mediated mechanism and involvement of p38 MAPK and PKC. E(2) induced rapid and transient increases in the phosphorylation state of PKC, as well as of a aCREB-like (cAMP responsive element binding protein) transcription factor, as indicated by Western blot analysis with specific anti-phospho-antibodies. Localization of estrogen receptor-alpha- and -beta-like proteins in hemocytes was investigated by immunofluorescence confocal microscopy. The effects of E(2) on immune function were also investigated in vivo at 6 and 24 h in hemocytes of E(2)-injected mussels. E(2) significantly affected hemocyte lysosomal membrane stability, phagocytosis, and extracellular release of hydrolytic enzymes: lower concentrations of E(2) resulted in immunostimulation, and higher concentrations were inhibitory. Our data indicate that the physiological role of E(2) in immunomodulation is conserved from invertebrates to mammals.
• 3.97

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  Effects of tumour necrosis factor alpha (TNFalpha) on Mytilus haemocytes: role of stress-activated mitogen-activated protein kinases (MAPKs).

  Michele Betti, Caterina Ciacci, Lucia C Lorusso, Barbara Canonico, Tania Falcioni, Gabriella Gallo, Laura Canesi

  Biology of the cell / under the auspices of the European Cell Biology Organization. 05/2006; 98(4):233-44.

  BACKGROUND INFORMATION: Many studies indicate that innate immunity in invertebrates can be modulated by a cytokine network like in vertebrates. In molluscs, the immune response is carried out by circulating haemocytes and soluble haemolymph factors. In the present study, the effects of heterologous ... [more] BACKGROUND INFORMATION: Many studies indicate that innate immunity in invertebrates can be modulated by a cytokine network like in vertebrates. In molluscs, the immune response is carried out by circulating haemocytes and soluble haemolymph factors. In the present study, the effects of heterologous TNFalpha (tumour necrosis factor alpha) on cell signalling and function in the haemocytes of the bivalve Mytilus galloprovincialis Lam. were investigated. RESULTS AND CONCLUSIONS: Addition of TNFalpha in the absence of haemolymph serum [in ASW (artificial sea water)] induced cellular stress, as indicated by lysosomal destabilization, and decreased phagocytosis; on the other hand, in the presence of serum, TNFalpha did not affect lysosomal stability and even stimulated phagocytosis. TNFalpha induced rapid phosphorylation of the stress-activated p38 and JNK (c-Jun N-terminal kinase) MAPKs (mitogen-activated protein kinases); both effects were persistent in ASW but transient in serum. Activation of p38 and JNKs in mediating the effects of TNFalpha was confirmed by the use of specific MAPK inhibitors. Moreover, flow cytometric analysis indicated that TNFalpha in the presence of serum induced transient phosphatidylserine exposure on the haemocyte surface, evaluated as annexin V binding; in ASW, the cytokine resulted in a stable increase in the percentage of both annexin- and propidium iodide-positive cells, indicating possible apoptotic/necrotic processes. The results indicate that TNFalpha can affect the function of bivalve haemocytes through conserved transduction pathways involving stress-activated MAPKs and suggest that the haemocyte response to the cytokine is influenced by soluble haemolymph components.

• Cell signalling in the immune response of mussel hemocytes

  Canesi L, Betti M, Ciacci C, Lorusso LC, Pruzzo C, Gallo G

  Invertebrate Survival Journal. 01/2006;

  In this work data on immune cell signallling in the circulating hemocytes of the edible bivalve, themussel Mytilus spp, are summarized. Studies with different bacterial species and strains, heterologouscytokines and natural hormones, as well as with organic environmental chemicals, led to theidentif... [more] In this work data on immune cell signallling in the circulating hemocytes of the edible bivalve, themussel Mytilus spp, are summarized. Studies with different bacterial species and strains, heterologouscytokines and natural hormones, as well as with organic environmental chemicals, led to theidentification of the role of conserved components of kinase-mediated transduction pathways,including cytosolic kinases (such as MAPKs and PKC) and kinase-activated transcription factors (suchas STATs, CREB, NF-kB), in the immune response. From these data a general scenario emergedindicating that close similarities exist in the signalling pathways involved in cell mediated immunity inbivalve and mammalian immunocytes. In particular, the results indicate that both the extent andduration of activation of components of kinase-mediated cascades are crucial in determining thehemocyte response to extracellular stimuli. The identification of the basic mechanisms of immunityand its modulation in mussels can give important information for the possible utilization of thesespecies as an invertebrate model for studies on innate immunity. Moreover, the application of thisknowledge to the understanding of the actual adaptive responses of bivalves when exposed to microorganismsin their natural environment can represent significant ecological, economical and publichealth-related interest.
• 3.12

  Impact points

  Effects of the brominated flame retardant tetrabromobisphenol-A (TBBPA) on cell signaling and function of Mytilus hemocytes: involvement of MAP kinases and protein kinase C.

  Laura Canesi, Lucia Cecilia Lorusso, Caterina Ciacci, Michele Betti, Gabriella Gallo

  Aquatic toxicology (Amsterdam, Netherlands). 12/2005; 75(3):277-87.

  Brominated flame retardants (BFRs) are a large group of compounds added to or applied as a treatment to polymeric materials to prevent fires. Tetrabisphenol A (TBBPA) is the most important individual BFR used in industry. Although TBBPA and its derivatives can be found in environmental samples, data... [more] Brominated flame retardants (BFRs) are a large group of compounds added to or applied as a treatment to polymeric materials to prevent fires. Tetrabisphenol A (TBBPA) is the most important individual BFR used in industry. Although TBBPA and its derivatives can be found in environmental samples, data are very limited on the presence of this compound in biota. Research on mammals indicates that TBBPA has low toxicity in vivo; however, in vitro TBBPA can act as a cytotoxicant, neurotoxicant, immunotoxicant, thyroid hormone agonist and has a weak estrogenic activity; in particular, the effects of TBBPA have been recently ascribed to its interactions with cellular signaling pathways, in particular with mitogen activated protein kinases (MAPKs). TBBPA has high acute toxicity to aquatic organisms, such as algae, molluscs, crustaceans and fish; however, little is known on the mechanisms of action of this compound in the cells of aquatic species. In this work, we investigated the possible effects and mechanisms of action of TBBPA on the immune cells, the hemocytes, of the marine mussel Mytilus galloprovincialis. The results demonstrate that TBBPA in the low micromolar range induces hemocyte lysosomal membrane destabilization. The effect was reduced or prevented by hemocyte pre-treatment by specific inhibitors of MAPKs and of protein kinase C (PKC). TBBPA stimulated phosphorylation of MAPK members and PKC, as evaluated by electrophoresis and Western blotting with anti-phospho-antibodies, although to a different extent and with distinct time-courses. A rapid (from 5 min) and transient increase in phosphoryation of the stress-activated JNK MAPKs and of PKC was observed, followed by a later increase (at 30-60 min) in phosphorylation of extracellularly regulated MAPKs (ERK2 MAPK) and of the stress-activated p38 MAPK. TBBPA significantly stimulated the hemocyte microbicidal activity towards E. coli, lysosomal enzyme release, phagocytic activity and extracellular superoxide (O2-) production. The results demonstrate that TBBPA in vitro activates the immune function of mussel hemocytes through kinase-mediated cell signaling and that common transduction pathways are involved in mediating the effects of this BFR in mammalian and aquatic invertebrate cells.