Your search keyword '"Caricato, Roberto"' showing total 46 results

1. Characterisation of the correlations between oxidative potential and in vitro biological effects of PM10 at three sites in the central Mediterranean

Author

Guascito, Maria Rachele, Lionetto, Maria Giulia, Mazzotta, Franco, Conte, Marianna, Giordano, Maria Elena, Caricato, Roberto, De Bartolomeo, Anna Rita, Dinoi, Adelaide, Cesari, Daniela, Merico, Eva, Mazzotta, Laura, and Contini, Daniele

Published

2023

2. Effects of short-term and long-term exposure to ocean acidification on carbonic anhydrase activity and morphometric characteristics in the invasive polychaete Branchiomma boholense (Annelida: Sabellidae): A case-study from a CO2 vent system

Author

Del Pasqua, Michela, Gambi, Maria Cristina, Caricato, Roberto, Lionetto, Maria Giulia, and Giangrande, Adriana

Published

2019

3. Biomonitoring of water and soil quality: a case study of ecotoxicological methodology application to the assessment of reclaimed agroindustrial wastewaters used for irrigation

Author

Lionetto, Maria Giulia, Caricato, Roberto, Calisi, Antonio, Giordano, Maria Elena, Erroi, Elisa, and Schettino, Trifone

Published

2016

4. Induction of the apoptotic volume decrease (AVD) under normotonic conditions in HeLa cells exposed to Trolox

Author

Giordano Maria Elena, Caricato Roberto, Schettino Trifone, Lionetto Maria Giulia, Giordano, Maria Elena, Caricato, Roberto, Schettino, Trifone, and Lionetto, Maria Giulia

Subjects

Hela cells, Cl channel, antioxidant, cell volume regulation, Trolox, Apoptotic Volume Decrease

Abstract

Previous observations showed that Trolox, a synthetic analog of vitamin E, widely used as antioxidant standard in a number of bioassays, can exert a pro-oxidant behavior at higher concentrations (>40 µM) on HeLa cells exposed for 24h, producing an isotonic cell shrinkage. A number of cellular events are known to be triggered by oxidative stress, including impairment of ion transport mechanisms and alteration of cell volume homeostasis. This work aims to investigate the possible mechanisms through which Trolox at high concentrations acts on cell volume homeostasis alteration in HeLa cells. The study was carried out by 1) spectrofluorimetric determination of intracellular oxidative stress in cells charged with CM-H2DCFDA, 2) morphometric analysis of cells observed under optical microscopy for cell volume determination, and 3) spectrofluorimetric and confocal analysis of cells charged with Annexin V/Propidium Iodide for apoptotic induction. HeLa cells exposed for 24h to high Trolox concentrations showed a significant dose-dependent isotonic reduction of cell volume associated to intracellular oxidative stress. The observed isotonic shrinkage was accompanied by apoptosis induction, as demonstrated by Annexin V/Propidium Iodide and was ascribed to Apoptotic Volume Decrease (AVD). The isotonic shrinkage appearance was demonstrated to occur early (after 2h) during the exposure to high Trolox concentrations. It was completely inhibited by pretreatment of the cells with a Cl- channel blocker SITS (0.5 mM). These results indicate that treatment of HeLa cells with high Trolox concentrations induces the activation of volume-regulatory Cl- channels, most likely by an increase in endogenous ROS production, which in turn is able to generate AVD.

Published

2019

5. Correlation of PM10 oxidative potential with ecotoxicological and cytotoxicological potential measured at an urban background site in Italy

Author

Lionetto Maria Giulia, Guascito Maria Rachele, Caricato Roberto, Giordano Maria Elena, De Bartolomeo Anna Rita, Romano Maria Pia, Conte Marianna, Contini Daniele, Lionetto, Maria Giulia, Guascito, Maria Rachele, Caricato, Roberto, Giordano, Maria Elena, DE BARTOLOMEO, Anna Rita, Romano, MARIA PIA, Conte, Marianna, and Contini, Daniele

Subjects

Microtox test, MTT, oxidative potential, cytotoxicity, Particulate matter, DDT

Abstract

Atmospheric particulate matter is a concern in most of the European towns because it has potential negative effects on human health (Davidson et al., 2005; Lelieveld et al., 2015). Although the toxic effects of PM have been correlated with some of its chemical and physical properties, the toxicity mechanisms are not yet fully known. Different in vitro toxicological tests are often necessary to characterise potential health effects and, often, it is found significant correlation only among a few of the possible tests. In addition, contrasting results could be obtained comparing in vitro tests with acellular assays like those used to determine oxidative potential (Steenhof et al., 2011; Van Den Heuvel et al., 2018). The aim of the work was to study the oxidative potential (OP) of PM10, determined with the acellular DTT assay, in relationship with its ecotoxicological and cytotoxicological potential. The study was carried out on aqueous extracts of 10 samples of airborne PM10 randomly selected among the samples collected between 16/09/2017 and 25/12/2017. Samples were collected using a low-volume (2.3 m3 /h) sampler (SWAM, Fai Instruments srl) on 47 mm quartz fibre filters (Whatman) pre-fired at 700 °C for 2 hours in order to reduce contamination. Samples were exposed for 24 hours (starting at midnight) at the Environmental-Climate Observatory of ISAC-CNR in Lecce (Southern Italy), regional station of the Global Atmosphere Watch (GAW) network, characterised as an urban background site (Cesari et al., 2018). The aqueous extraction was performed in an ultrasonic bath for 80 min using 10 ml Milli-Q water. The ecotoxicological potential of PM10 was assessed by the bioluminescence inhibition assay based on the Gram-negative non-pathogenic bacterium Vibrio fischeri (Microtox® test), which physiologically emits light as a results of its metabolic activity. The natural bioluminescence of V. fisheri is inhibited by the exposure to a number of chemical pollutants, including organic and inorganic compounds (Abbass et al., 2018). Different exposure times (5, 15, and 30 mins) were used and inhibition results, obtained with five repetitions, are reported as a net effect corrected using field blanks. The cytotoxicological potential of PM10 was assessed on the same extracts by the MTT assay on the cell line A549. The MTT assay is based on a colorimetric reaction dependent on mitochondrial respiration of the cells and indirectly allows assessing the cellular energy capacity of a cell (Stockert et al., 2012). The MTT assay was applied to the A549 cell line, representative of the alveolar type II pneumocytes of the human lung (Foster et al., 1998). Cell mortality after 24h exposition is evaluated, in relative terms, considering the net effect of PM10 using field blanks for correction. Six repetitions were done. The water-soluble fraction of PM10 was also used for the analysis of the OP, performed with the dithiothreitol assay (DTT), a surrogate for cellular antioxidants, which analyses the rate of DTT depletion catalysed by chemical species present in the PM (Chirizzi et al., 2017). An aliquot of the extracts was diluted with deionised water (1:4 factor). Diluted samples were incubated at 37 °C with DTT (0.1 mM) in 0.1 M potassium phosphate buffer at pH 7.4 for times varying from 5 to 90 min. At designated times (specifically at 5, 10, 15, 20, 30, 45, 60, and 90 min) an aliquot of incubation mixture was picked up and 10% trichloroacetic acid was added to stop the reaction. Then, this reaction mixture was mixed with a solution containing 10 mM DTNB. The concentration of the formed 5-mercapto-2-nitrobenzoic acid was measured by its optical density absorption at 412 nm using a Eon BioTek Microplate Spectrophotometer. The consumption of DTT over time was determined through the linear fitting of the absorbance with the time in which it was made the withdrawal. The DTT depletion rate was used to determine OP values as DTT-activity 21 normalized in terms of sampled air volume (OPV) or in terms of mass of collected aerosols (OPM). The OPV and OPM values were comparable with previous measurements in this area or in other Italian towns (Chirizzi et al., 2017). In all the 10 samples analysed a significant inhibition of the Vibrio fisheri bioluminescence was observed as a results of the exposure of bacteria to the undiluted extracts for 5, 15 and 30 min, suggesting the presence in the PM10 of components able to induce an ecotoxic effect. Four samples (samples n. 2,3,4, and 7) showed a % of inhibition ranging from 30% to 50%, ascribable to a slight toxic effect, while six samples (samples 1,5,6, 8,9, and 10) showed a % of inhibition above 50% after 30 min exposure, suggesting the presence of a toxic effect. The correlation analysis between the sampled mass and the Vibrio fisheri bioluminescence inhibition showed a significant positive correlation (p

Published

2019

6. The sensitivity of carbonic anhydrase to metal exposure in the model organisms Mytilus galloprovincialis: in vitro, in vivo and in field approach

Author

Caricato Roberto, Salmina Simone, Giordano Maria Elena, Schettino Trifone, Lionetto Maria Giulia, Caricato, Roberto, Salmina, Simone, Giordano, Maria Elena, Schettino, Trifone, and Lionetto, Maria Giulia

Subjects

Carbonic anhydrase, lysosome, biomarker, heavy metal

Abstract

Carbonic anhydrase (CA) is a ubiquitous metalloenzyme involved in a number of physiological processes. Its sensitivity to chemical pollutants has been recently recognized. The work was aimed to study the CA sensitivity to metal exposure in the digestive gland of the model organism Mytilus galloprovincialis under in vitro, in vivo and in field conditions, with reference to the functional involvement of CA in the lysosomal response to pollutant exposure. The study was carried out by immunofluorescence confocal microscopy, electrometric assay of CA activity, spectrofluorimetric and confocal analysis of the lysosomal system. Under in vitro exposure to CdCl2 or CuCl2, CA activity was dose-dependently inhibited with an IC50 of 8.7 10-5M for copper and 1.1 10-3M for cadmium. On the other hand, under in vivo chronic exposure to CuCl2 (0.3 10-6 M) or CdCl2 (0.54 10-6 M) for 14 days, CA showed a significant upregulation, paralleled by the increased fluorescence of LysoSensor green charged cells, indicative of lysosome proliferation/increase in size. The metal induced lysosomal activation was prevented by the in vivo exposure to the specific CA inhibitor acetazolamide, demonstrating a key role of CA in the pollutant induced lysosomal activation. The response of CA upregulation paralleled by lysosomal activation was validated in the field by an active biomonitoring approach in coastal marine sites interested by metal contamination. In conclusion, data showed the complexity and multi-aspect nature of the CA sensitivity to metals, which can be CA inhibitors at higher concentrations and modulator of CA expression at lower concentrations typical of chronic exposure. In this condition CA upregulation can be functional to the prolonged increased requirement of H+ under lysosomal activation.

Published

2019

7. Physiological response of the invasive polychaete Branchiomma boholense (Anellida: Sabellae) to ocean acidification: results of a transplant experiment at a CO2 vent system

Author

Del Pasqua Michela, Gambi Maria Cristina, Caricato Roberto, Lionetto Maria Giulia, Giangrande Adriana, DEL PASQUA, Michela, Gambi Maria, Cristina, Caricato, Roberto, Lionetto, Maria Giulia, and Giangrande, Adriana

Subjects

Polichaete, Brachiomma boholense, Ocean acidification, carbonic anhydrase

Abstract

Branchiomma boholense is a sabellid polychaete considered highly invasive in the Mediterranean Sea as in few years it was able to expand its distribution range across the entire basin. Along the Italian coasts, this species has also been reported in venting areas near Castello Aragonese (Ischia Island) where CO2 emissions lower the seawater pH up to 6.00 values. The aim of this study was to test the physiological response of B. boholense to the decrease of seawater pH, measuring the activity of carbonic anhydrase (CA), a zinc metalloenzyme known to be affected by low pH conditions in other taxa. A transplant experiment employing the CO2 vents of Ischia was carried out. Worms were collected from a control pH area in the Mar Grande of Taranto and transplanted in two areas around Ischia, a control and a high pCO2 area. Three sites per area were utilized. Thirty individuals per site were exposed in plastic cages for 30 days. CA activity was measured electrometrically on the tissue homogenate of each specimen. Results of the ANOVA analysis on translocated worms showed no significant differences in CA activity either between individuals exposed to control and acidified conditions, nor among specimens transplanted in different sites within the same area. However, organisms exposed to the acidified area showed a decrease of their wet weight of about 20% compared to animals translocated in control sites. Moreover, CA activity was also investigated in specimens native from normal (Taranto) and high pCO2 environments (Ischia). The analysis of their wet weight revealed a marked decrease (by about 70%) in worms from the acidified area with respect to control animals. Interestingly, protein tissue content showed a significant (50%) increase in specimens native from the vent system with respect to the Taranto control area. Therefore, significant differences in CA activity (U/g wet weight) between specimens naturally exposed to normal and acidified conditions were also observed, with individuals living in acidified environments showing doubled values of enzymatic activity. The results of this study demonstrated that B. boholense is inclined to maintain a great homeostatic capacity when exposed to low pH. However, a marked decrease in body weight was observed under chronic exposure to high pCO2, suggesting the need of further studies to understand if the maintenance of a homeostatic balance come at the expense of other energy demanding physiological processes

Published

2018

8. Towards potable wastewater reuse in Italy: treatment options for micropollutants at ultra-low concentration

Author

Pio Iolanda, Ancona Aida, Santoro Oronzo, Pastore Tiziano, De Dominicis Emiliano, Gritti Elisa, Caricato Roberto, Lionetto Maria Giulia, Santoro Domenico, Pio, Iolanda, Ancona, Aida, Santoro, Oronzo, Pastore, Tiziano, De Dominicis, Emiliano, Gritti, Elisa, Caricato, Roberto, Lionetto, Maria Giulia, and Santoro, Domenico

Published

2018

9. A novel physiological role for carbonic anhydrase in animals: involvement in the lysosomal response to cadmium exposure in mussel digestive gland

Author

Caricato Roberto, Giordano Maria Elena, Schettino Trifone, Lionetto Maria Giulia, Caricato, Roberto, Giordano, Maria Elena, Schettino, Trifone, and Lionetto, Maria Giulia

Subjects

Carbonic anhydrase, digestive gland, mussel, lysosome

Abstract

Carbonic anhydrase (CA) is a ubiquitous metalloenzyme involved in a number of physiological processes including respiration, pH homeostasis, electrolyte transport, calcification, biosynthetic reactions. The aim of this work was to explore a novel functional role of CA in animals: its involvement in the lysosomal system response to metal exposure. Mytilus galloprovincialis digestive gland was used as experimental model. The in vivo exposure of mussels to CdCl2 was able to evoke the induction of digestive gland CA. This response was paralleled by the activation of the lysosomal compartment (proliferation and/or increase in size of lysosomes), as assessed on LysoSensor Green marked cells by confocal microscopy and spectrofluorimetric analysis. When mussels were in vivo exposed to acetazolamide, specific CA inhibitor, the acidification of the lysosomal compartment was prevented. Moreover, during the co-exposure to cadmium and acetazolamide, the cadmium induced activation of the lysosomal compartment was completely inhibited. In conclusion, our results demonstrated in vivo the physiological contribution of CA to the acidification of the lysosomal compartment in digestive gland and its involvement in the lysosomal activation following cadmium exposure. CA induction following cadmium exposure could physiologically sustain a prolonged increased requirement of H+ for supporting lysosomal acidification during lysosomal activation.

Published

2018

10. Antioxidant and pro-oxidant activity of Trolox and its effect on cell volume homeostasis on HeLa cells

Author

Giordano Maria Elena, Caricato Roberto, Schettino Trifone, Lionetto Maria Giulia, Giordano, Maria Elena, Caricato, Roberto, Schettino, Trifone, and Lionetto, Maria Giulia

Subjects

Hela cells, antioxidant, cell volume regulation, Trolox, prooxidant

Abstract

Recently a dual behavior (antioxidant vs pro-oxidant) of some bioactive molecules has emerged. Trolox, a synthetic analog of vitamin E, widely used as antioxidant standard in a number of bioassays, in the presence of peroxidase/H2O2 is known to induce lipid peroxidation. The aim of the present study was to investigate the antioxidant/pro-oxidant properties of Trolox in HeLa cells in relationship to cell volume homeostasis alteration and cytotoxicity. The study was carried out by spectrofluorimetric analysis of cells charged with the ROS-sensitive probe CM-H2DCFDA, morphometric analysis of the cells and MTT test. When the cells were exposed (24h) to increasing Trolox concentrations (from 2.5 to 160 µM) and then charged with CM-H2DCFDA, an antioxidant effect on the endogenous ROS production was observed at low concentrations, but a marked pro-oxidant behavior was evident at higher concentrations. The same dose-dependent dual behavior was observed also in the presence of an exogenous oxidative challenge (H2O2). At higher concentrations Trolox was able to induce a dose-dependent isotonic reduction of cell size in parallel to a reduction of cell vitality. In conclusion, our study demonstrated the dose-dependent antioxidant/pro-oxidant behavior of Trolox in HeLa cells. The pro-oxidant effect was associated to an isotonic cell shrinkage, probable early signal of an apoptotic process ascribable to Apoptotic Volume Decrease, suggesting an alteration effect on the membrane transport mechanisms involved in cell volume homeostasis

Published

2018

11. Acclimatization of the invasive sabellid Branchioma bairdi (Anellida) at ocean acidification. Preliminary results of a transplant experiment at a CO2 vent system

Author

Del Pasqua Michela, Gambi Maria Cristina, Caricato Roberto, Lionetto Maria Giulia, Giangrande Adriana, DEL PASQUA, Michela, Gambi Maria, Cristina, Caricato, Roberto, Lionetto, Maria Giulia, and Giangrande, Adriana

Subjects

Acidification, Carbonic anhydrase, Brachioma, Anellida

Abstract

Branchiomma bairdi is a sabellid polychaete native of the Caribbean Sea and recently introduced in the Mediterranean Sea where the species’s range has rapidly expanded as a consequence of its ability to colonize different environments and substrates. The species has also been reported around Ischia (Naples, Italy), a volcanic Island characterized by numerous submerged CO2 vent systems. In this regard the species occurs at the Castello vent system where intense CO2 emissions along the rocky reef lower the seawater pH up to mean values >7.4. In order to investigate the physiological response of B. bairdi to seawater acidification, worms were collected from the Mar Grande of Taranto, a non-acidified area in the south of Italy, and transported to Ischia in order to perform a transplant experiment into naturally acidified conditions. Three acidified plots were selected around the Castello vent’s area (A4, A5 on the south side; A6 on the north side), and three plots on a control area located at S. Pietro point (mean pH 8.12), approx 4 km from the Castello (C1, C2, C3). Thirty individuals per plot (90 per treatment) were exposed inside plastic cages, to both acidified and control conditions for 30 days. Cages were monitored and pH and temperature were measured in each plot approx. every four days until the end of the experiment. In addition, some individuals sampled both in Taranto and the Castello acidified area were frozen immediately after collection and used as a background condition test. The physiological response of B. bairdi to the acidified treatment was inferred measuring the activity of carbonic anhydrase (CA) a zinc metalloenzyme involved in a wide variety of physiological processes in animals. CA enzymatic activity was measured by electrometric method on the whole body homogenate of the species. CA activity data from the in vivo exposure experiment were analyzed by two-way ANOVA. No significant differences (p>0.05) in CA activity between acidified and control treatment were observed both in the transplanted and background worms, suggesting that this invasive species shows high physiological plasticity and it is well acclimatized to the acidified conditions of the Castello vent system.

Published

2017

12. The gastrointestinal tract as the first interface for intracellular activity of food antioxidants

Author

LIONETTO, Maria Giulia, GIORDANO, Maria Elena, SCHETTINO, Trifone, CARICATO, Roberto, Lionetto, Maria Giulia, Giordano, Maria Elena, Schettino, Trifone, and Caricato, Roberto

Subjects

colon, gastrointestinal tract, antioxidant, hydroxytyrosol, polyphenols

Abstract

The gastrointestinal tract is exposed to a number of pro-oxidant conditions and several gastrointestinal diseases are related to oxidative stress. The preservation of the gastrointestinal redox balance is of pivotal importance for the health status of the organism. It depends on a dynamic system involving antioxidant enzymes, as well as non-enzymatic molecules some of which derive from the diet. This work focuses on the intestinal epithelium and its aim was to explore the intracellular ROS scavenging activity of intracellularly absorbed food antioxidants. Freshly isolated intestinal explants obtained from different experimental animal models were used. They retain the functional and morphological characteristics of the epithelium in vivo. In situ confocal detection on CM-H2DCFDA charged explants experimentally exposed to pro-oxidant conditions was applied. Phenolic phytochemicals, such as hydroxytirosol or anthocyanins, commonly found in the Mediterranean diet, were demonstrated in surface enterocytes to cross the plasma membrane and exert a direct intracellular antioxidant activity. The effect was dose and time dependent and was compared with Trolox, synthetic analog of vitamin E. In conclusion, the gastrointestinal epithelium represents the first interface for the intracellular ROS scavenging activity of food antioxidants, and as such it can benefit directly and earlier than other body tissues of the protective action of food antioxidants against pro-oxidant conditions.

Published

2017

13. Cloride transport in HeLa cells: a study by a recombinant cell-based assay in living cells

Author

GIORDANO, Maria Elena, LIONETTO, Maria Giulia, CARICATO, Roberto, SCHETTINO, Trifone, Giordano, Maria Elena, Lionetto, Maria Giulia, Caricato, Roberto, and Schettino, Trifone

Subjects

HeLa, Cl transport, YFP-H148Q/I152L, cell volume regulation

Abstract

Chloride transport is involved in a wide variety of cellular functions, including regulation of the membrane potential, cell volume, acid base balance, and epithelial fluid absorption and secretion. Alterations in chloride transport mechanisms are related to a number of physio-pathological conditions. The aim of this study was to investigate chloride transport across the plasma membrane of cervical cancer cell lines (HeLa), relying on the halide binding properties of a green (GFP) fluorescent protein variant (YFP) that, if halide complexed, decreases the basal fluorescence intensity. The fluorescence changes of HeLa cells expressing YFP was analyzed by confocal and spectrofluorometric analysis. Our results highlights the presence of a transmembrane halide transport through fluorescence quenching when the transfected cells were exposed to NaI, used as a surrogate ion, under isotonic conditions. This quenching was inhibited by bumetanide, a specific inhibitor of Na+-K+-2Cl- cotransporter, demonstrating the role of such transporter in intracellular halide absorption and allowing cellular fluorescence assay for a functional study of Na+-K+-2Cl-. The kinetic parameters of the transporter were quantified. The present work provides an alternative approach for the measurement and characterization of Cl- and halide transport in living cells expressing YFP-H148Q/I152L based on a non-invasive analysis method.

Published

2017

14. In situ detection of the intracellular antioxidant activity of grape skin polyphenolic extracts by confocal fluorescence microscopy: a study on rat superficial colonocytes

Author

GIORDANO, Maria Elena, SCHETTINO, Trifone, CARICATO, Roberto, LIONETTO, Maria Giulia, Ingrosso, I., Giovinazzo, G., Giordano, Maria Elena, Ingrosso, I., Schettino, Trifone, Caricato, Roberto, Giovinazzo, G., and Lionetto, Maria Giulia

Subjects

antioxidant, colon, confocal, food and beverages, polyphenols

Abstract

Colon epithelium is exposed to oxidative stress conditions via exogenous and endogenous routes and a number of colon diseases are associated with the imbalance of the cellular redox system. The aim of the present work was to study the intracellular antioxidant activity of red grape polyphenolic extracts on superficial enterocytes experimentally exposed to prooxidant conditions. In situ confocal microscopy observation on CM-H2DCFDA charged explants exposed to H2O2 (5, 10, and 15min) was performed. First, the ability of the experimental set up to detect intracellular ROS scavenging activity by intracellularly absorbed antioxidants was demonstrated by a dose-response inhibition of the H2O2 induced intracellular probe fluorescence following pre-incubation with Trolox, synthetic analog of vitamin E. Then, the explants were incubated with grape skin polyphenolic extracts for 1 h producing a significant decrease of the H2O2 induced fluorescence. This effect was more pronounced following 15 min H2O2 exposure with respect to 5 min and it was also more evident for extracts obtained from mature grapes, which showed an increased ORAC value and qualitative peculiarities in the polyphenolic composition. Results demonstrated that red grape polyphenolic extracts are able to exert an intracellular antioxidant activity on superficial colonocytes, inducing a protection action against pro-oxidant condition. Extracts obtained from mature grapes showed an increased protective activity

Published

2016

15. Carbonic anhydrase involvement in the lysosomal system response to heavy metal exposure

Author

CARICATO, Roberto, SCHETTINO, Trifone, GIORDANO, Maria Elena, LIONETTO, Maria Giulia, Caricato, Roberto, Schettino, Trifone, Giordano, Maria Elena, and Lionetto, Maria Giulia

Subjects

Carbonic anhydrase, metal, lysosome, biomarker

Abstract

Lysosomes are intracellular organelles with an acidic internal pH maintained by a V-ATPase H+ pump. Lysosomal reactions (alterations in lysosomal number and size and lysosomal destabilization) are involved in a number of physiological responses, including xenobiotic and heavy metal sequestration and detoxification. The aim of the study was to investigate the role of carbonic anhydrase, an ubiquitous enzyme catalyzing the hydration of CO2 to HCO2- and H+, in the lysosomal response to heavy metal exposure by using mussel (Mytilus galloprovincialis) digestive cells, characterized by a well developed lysosomal system, as experimental model. CdCl2 was used as reference toxicant. A novel microplate fluorimetric assay was developed on digestive cells in suspension, charged with the fluorescent acidotropic probe Lysosensor™ Green DND-189, for quantitating the number of lysosomes and their pH. In parallel, single cell analysis was performed by confocal microscopy. Digestive cells from Cd exposed animals showed a time and dose dependent increase of the probe fluorescence, suggesting a proliferation of the lysosomal compartment and decrease of the internal pH. This was confirmed by single cell confocal analysis. In animals in vivo exposed to acetazolamide, specific inhibitor of carbonic anhydrase, the metal induced fluorescence increase was dramatically inhibited. In conclusion, results indicate a key role of carbonic anhydrase in the lysosomal responses to metal exposure.

Published

2015

16. Carbonic anhydrase activity in the digestive gland of Mytilus galloprovincialis: the story of a novel biomarker?

Author

CARICATO, Roberto, LIONETTO, Maria Giulia, GIORDANO, Maria Elena, SCHETTINO, Trifone, Caricato, Roberto, Lionetto, Maria Giulia, Giordano, Maria Elena, and Schettino, Trifone

Subjects

carbonic anhydrase, biomarker, Mytilus galloprovinciali

Abstract

Aim: Carbonic anhydrase is a zinc metalloenzyme catalysing the reversible hydration of CO2. Its activity is virtually ubiquitous in nature and is involved in a wide variety of physiological processes. The aim of the present work was to study the in vitro and in vivo sensitivity of CA to chemical pollutants in Mytilus galloprovincialis, widely used as sentinel organism in marine pollution biomonitoring, with the aim to develop a new biomarker of exposure/effect to chemical contamination. Methods: CA activity was measured applying a simple and low cost electrometric method. Briefly, enzymatic activity units were calculated from the rate of H+ production in the reaction mixture (where CO2 as substrate was present) against a blank containing the specific CA inhibitor acetazolamide. Results: As first step, we demonstrated the presence of a significant CA activity in M. galloprovincialis tissues and its sensitivity to in vitro exposure to several heavy metals. As second step, we demonstrated a significant tissue-specific alteration of CA activity following in vivo Cadmium exposure, with a significant increase in the digestive gland. As third step, immunoprecipitation and western blot analysis on mussel digestive gland revealed a protein that immunoreacts with the antibody at a molecular mass of approximate 42 kDa (the sequencing analysis is in progress). Interestingly the 42 KDa band, ascribed to CA, appeared strongly increased in the digestive gland of cadmium exposed mussel (14 day exposure), thus leading to an induction of CA expression in accordance with the observed enzymatic activity increase. As final step, the laboratory resulted was validated with field experiments. Conclusion: Obtained results represent a good starting point for future potential biomarker application of the CA activity in the sentinel organism M. galloprovincialis.

Published

2007

17. In vivo effects of Cd2+ on the digestive gland carbonic anhydrase of the Mytilus galloprovincialis

Author

CARICATO, Roberto, LIONETTO, Maria Giulia, GIORDANO, Maria Elena, SCHETTINO, Trifone, F. Dondero, A. Viarengo, E. Berti, Caricato, Roberto, F., Dondero, A., Viarengo, E., Berti, Lionetto, Maria Giulia, Giordano, Maria Elena, and Schettino, Trifone

Subjects

Mytilus galloprovincialis, cadmium, carbonic anhydrase, protein expression

Abstract

Carbonic anhydrase (CA; EC 4.2.1.1) is a zinc metalloenzyme catalysing the reversible hydration of CO2. Its activity is virtually ubiquitous in nature and is envolved in a wide variety of physiological processes. Until today, fourteen CA isozymes (CA I-XIV) were characterised in animals, plants and certain bacteria. Pollutants like heavy metals are considered strong CA activity inhibitors, however few works have studied the sensitivity of CA from aquatic organisms to cadmium and comparatively much less studies on invertebrates are available. In Mytilus galloprovincialis (widely used in marine pollution monitoring programmes as sentinel organisms), we previously demonstrated a significant tissue-specific alteration of CA activity following in vivo cadmium (Cd) exposure, with a significant increase in the digestive gland. In order to establish if protein expression was involved in the observed metal activation of the enzymatic activity, in the present work immuno-precipitation and western blot analysis were applied to the tissue extract of control and Cd exposed mussels. Mussels were exposed to 1.8 µM CdCl2 for 14 days. Digestive gland CA activity was measured applying a simple and low cost electrometric method (Caricato et al., ESCPB Congress, 2003). Immunoprecipitation and western blot analysis (using the polyclonal anti-Carbonic Anhydrase II antibody) revealed in mussel digestive gland a protein that immunoreacts with the antibody at a molecular mass of approximate 42 kDa (the sequencing analysis is in progress). 42 kDa corresponds to the molecular weight of native CA VI (Parkkila S. et al., 1997), whose presence in invertebrates has never been revealed before. Interestingly the 42 KDa band, ascribed to CA, appeared strongly increased in the digestive gland of mussel after 14 day exposure, thus leading to a induction of CA expression in accordance with the observed enzymatic activity increase. To our knowledge this is the first time that Cd inducible CA activity and expression are reported. In conclusion, obtained results represent a good starting point for future potential biomarker application of the CA activity in the sentinel organism M. galloprovincialis.

Published

2006

18. In vivo effect of Cd2+ on the digestive gland carbonic anhydrase of the Mytilus galloprovincialis

Author

CARICATO, Roberto, LIONETTO, Maria Giulia, GIORDANO, Maria Elena, SCHETTINO, Trifone, DONDERO F, VIARENGO A, BERTI E, Caricato, Roberto, Dondero, F, Viarengo, A, Berti, E, Lionetto, Maria Giulia, Giordano, Maria Elena, and Schettino, Trifone

Subjects

cadmium, carbonic anhydrase, mytilus

Abstract

Carbonic anhydrase (CA; EC 4.2.1.1) is a zinc metalloenzyme catalysing the reversible hydration of CO2. Its activity is virtually ubiquitous in nature and is envolved in a wide variety of physiological processes. Until today, fourteen CA isozymes (CA I-XIV) were characterised in animals, plants and certain bacteria. Pollutants like heavy metals are considered strong CA activity inhibitors, however few works have studied the sensitivity of CA from aquatic organisms to cadmium and comparatively much less studies on invertebrates are available. In Mytilus galloprovincialis (widely used in marine pollution monitoring programmes as sentinel organisms), we previously demonstrated a significant tissue-specific alteration of CA activity following in vivo cadmium (Cd) exposure, with a significant increase in the digestive gland. In order to establish if protein expression was involved in the observed metal activation of the enzymatic activity, in the present work immuno-precipitation and western blot analysis were applied to the tissue extract of control and Cd exposed mussels. Mussels were exposed to 1.8 µM CdCl2 for 14 days. Digestive gland CA activity was measured applying a simple and low cost electrometric method (Caricato et al., ESCPB Congress, 2003). Immunoprecipitation and western blot analysis (using the polyclonal anti-Carbonic Anhydrase II antibody) revealed in mussel digestive gland a protein that immunoreacts with the antibody at a molecular mass of approximate 42 kDa (the sequencing analysis is in progress). 42 kDa corresponds to the molecular weight of native CA VI (Parkkila S. et al., 1997), whose presence in invertebrates has never been revealed before. Interestingly the 42 KDa band, ascribed to CA, appeared strongly increased in the digestive gland of mussel after 14 day exposure, thus leading to a induction of CA expression in accordance with the observed enzymatic activity increase. To our knowledge this is the first time that Cd inducible CA activity and expression are reported. In conclusion, obtained results represent a good starting point for future potential biomarker application of the CA activity in the sentinel organism M. galloprovincialis.

Published

2005

19. Acetylcholinesterase as biomarker in environmental biomonitoring

Author

LIONETTO, Maria Giulia, CARICATO, Roberto, GIORDANO, Maria Elena, SCHETTINO, Trifone, M. PARVEEN, S. KUMAR, Lionetto, Maria Giulia, Caricato, Roberto, Giordano, Maria Elena, and Schettino, Trifone

Subjects

biomonitoring, Acetylcholinesterase, biomarker, aquatic environment, pesticide

Abstract

As specific molecular target of organophosphate and carbammate pesticides, acetylcholinesterase activity and its inhibition has been early recognized to be a human biological marker of pesticide poisoning, but in the last two decades the interest for acetylcholinesterase has increased a lot in the ecotoxicological field; its determination has become a tool for monitoring environmental contamination and organismal exposure to those compounds in the biota. Furthermore its use in different phyla, either vertebrates or invertebrates makes acetylcholinesterase a particularly versatile biomarker that can be used to investigate pollutant effects at many trophic levels and in different environments.

Published

2005

20. Sensitivity of Mytilus galloprovincialis carbonic anhydrase activity to in vivo cadmium exposure

Author

CARICATO, Roberto, LIONETTO, Maria Giulia, GIORDANO, MICHELE, SCHETTINO, Trifone, Caricato, Roberto, Lionetto, Maria Giulia, Giordano, Michele, and Schettino, Trifone

Published

2004

21. Cytological alterations in Mytilus galloprovincialis granulocytes in response to chemical stress exposure

Author

LIONETTO, Maria Giulia, CARICATO, Roberto, GIORDANO, Maria Elena, SCHETTINO, Trifone, A. Calisi, Lionetto, Maria Giulia, A., Calisi, Caricato, Roberto, Giordano, Maria Elena, and Schettino, Trifone

Subjects

animal structures, granulocyte, pollution, Mytilus galloprovinciali

Abstract

INTRODUCTION: Bivalve mollusks and specially mussels are widely used as sentinel organisms in marine environmental quality assessment (Goldberg et al., 1978). Pollutant exposure biological responses (i.e. biomarkers) are increasingly investigated in mussel tissues and their measurements largely used in marine environmental monitoring. Mussels emocytes play very important role in mollusk physiology, mainly in the internal defense, and used for general biomarker determination such as lysosomal membrane stability. The aim of the present work was to investigate possible morphological alterations in Mytilus galloprovincialis haemocytes, in particular granulocytes, which represent the main defense system of the organisms, following pollutant exposure either in laboratory or in field conditions. MATERIAL AND METHODS: As regards laboratory exposure, an homogeneous stock of M. galloprovincialis was divided in two groups: the control one and the other one exposed to cadmium chloride (600 g l-1) for 14 days. At time 0, 3, 7 and 14 days haemolymph samples were collected. As regards field exposure an homogeneous stock of M. galloprovincialis was divided in two caged groups, translocated in a reference and in a polluted sites respectively. After 30 days exposure haemolymph samples were collected from both groups. M. galloprovincialis haemolymph samples were stained with Diff Quick (Dade Behring, Newark -USA), a rapid staining solution kit, to date utilized in the diagnostic field (Jorundsson et al, 1999). Diff Quick allowed the staining of haemolymph cells, in particular granulocytes, whose morphology including cytoplasm, nucleus and acidophilic granules appeared clearly defined. Diff Quick stained granulocytes were investigated by optical microscopy and image analysis. RESULTS AND DISCUSSION: Granulocytes from cadmium exposed mussels showed a significant increase of their surface, suggesting an activation of the granulocytes defence system in this organism after pollutant exposure. Moreover, a significant decrease of the perimeter/area ratio of granulocytes bidimentional images was observed, probably due to a cadmium induced reduction of the microfilament and microspine number. Interestingly, these findings were confirmed by results obtained with granulocytes from in field exposed mussels, which also showed a significant increase in their acidophilic granules. Results obtained suggest that the observed cytological alterations in mussel granulocytes can be proposed as potential biomarker of chemical stress exposure suitable to be used in a biomarker battery in marine environmental monitoring programmes. Moreover, the Diff Quick staining protocol proposed for mussel morphological alteration measurements, being rapid, sensitive, inexpensive and easy to be used, responds to the needs of the field biomonitoring application.

Published

2004

22. Carbonic anhydrase based environmental bioanalysis

Author

LIONETTO, Maria Giulia, CARICATO, Roberto, GIORDANO, Maria Elena, SCHETTINO, Trifone, E. Erroi, Lionetto, Maria Giulia, Caricato, Roberto, E., Erroi, Giordano, Maria Elena, and Schettino, Trifone

Subjects

enzhyme inhibition, bioassay, carbonic anhydrase

Abstract

Carbonic anhydrase (CA) is a metalloenzyme catalizing the reversible idratation of CO2 in H+ and HCO3-. It is an ubiquitous enzyme in bacteria, plant and animal kingdoms, playing a fundamental role in a number of physiolgical processes. Previous studies demonstrated the sensitivity of carbonic anhydrase activity to dichlorodiphenyl-dichloro-ethane (DDT) exposure in birds [1] and to cadmium exposure in teleost [2]. The aim of the present work was to investigate the in vitro sensitivity of carbonic anhydrase activity to several organic and inorganic chemical compounds, in order to standardize a carbonic anhydrase based bioanalytical method available for monitoring environmental samples. Commercial available CA isozyme II from bovine erythrocytes was utilized for the in vitro bioassay. CA activity was determined by a modification of electrometric method previously described by Wilbur and Anderson (J. Biol. Chem., 257: 12056-12059, 1948): briefly CA activity units were calculated from the rate of H+ production in the reaction mixture (where CO2 as substrate was present) against a blank containing the specific CA inhibitor acetazolamide. [H+] variation in the reaction mixture was followed at 0°C using a Mettler Delta 350 pH-meter. In our experimental set up bovin CA activity was significantly inhibited by nanomolar concentration of heavy metals (Cd, Cu and Hg), organochlorate compounds and carbammate pesticides, showing a dose-response behaviour. Carbonic anhydrase in vitro bioassay can represent a novel tool for rapid and low cost understanding of the toxicity of environmental samples, of bioavailability of pollutants in evironmental matrices, and of their additive or synergistic biological effects when present in mixtures.

Published

2004

23. Sensitivity of Mytilus galloprovincialis carbonic anhydrase to in vivo cadmium exposure

Author

CARICATO, Roberto, LIONETTO, Maria Giulia, GIORDANO, Maria Elena, SCHETTINO, Trifone, Caricato, Roberto, Lionetto, Maria Giulia, Giordano, Maria Elena, and Schettino, Trifone

Subjects

cadmium, carbonic anhydrase, biomarker, Mytilus galloprovinciali

Published

2004

24. Functional Involvement of Carbonic Anhydrase in the Lysosomal Response to Cadmium Exposure in Mytilus galloprovincialis Digestive Gland.

Author

Caricato, Roberto, Giordano, M. Elena, Schettino, Trifone, and Lionetto, M. Giulia

Subjects

MYTILUS galloprovincialis, CARBONIC anhydrase, PHYSIOLOGICAL effects of cadmium, LYSOSOMES, ACETAZOLAMIDE, CADMIUM, PHYSIOLOGY

Abstract

Carbonic anhydrase (CA) is a ubiquitous metalloenzyme, whose functions in animals span from respiration to pH homeostasis, electrolyte transport, calcification, and biosynthetic reactions. CA is sensitive to trace metals in a number of species. In mussels, a previous study demonstrated CA activity and protein expression to be enhanced in digestive gland by cadmium exposure. The aim of the present work was to investigate the functional meaning, if any, of this response. To this end the study addressed the possible involvement of CA in the lysosomal system response of digestive gland cells to metal exposure. The in vivo exposure to acetazolamide, specific CA inhibitor, significantly inhibited the acidification of the lysosomal compartment in the digestive gland cells charged with the acidotropic probe LysoSensor Green D-189, demonstrating in vivo the physiological contribution of CA to the acidification of the lysosomes. Under CdCl2 exposure, CA activity significantly increased in parallel to the increase of the fluorescence of LysoSensor Green charged cells, which is in turn indicative of proliferation and/or increase in size of lysosomes. Acetazolamide exposure was able to completely inhibit the cadmium induced Lysosensor fluorescence increase in digestive gland cells. In conclusion, our results demonstrated the functional role of CA in the lysosomal acidification of Mytilus galloprovincialis digestive gland and its involvement in the lysosomal activation following cadmium exposure. CA induction could physiologically respond to a prolonged increased requirement of H+ for supporting lysosomal acidification during lysosomal activation. [ABSTRACT FROM AUTHOR]

Published

2018

25. Acetylcholinesterase as a Biomarker in Environmental and Occupational Medicine: New Insights and Future Perspectives

Author

Lionetto, Maria Giulia, Caricato, Roberto, Calisi, Antonio, Giordano, Maria Elena, and Schettino, Trifone

Subjects

Article Subject

Abstract

Acetylcholinesterase (AChE) is a key enzyme in the nervous system. It terminates nerve impulses by catalysing the hydrolysis of neurotransmitter acetylcholine. As a specific molecular target of organophosphate and carbamate pesticides, acetylcholinesterase activity and its inhibition has been early recognized to be a human biological marker of pesticide poisoning. Measurement of AChE inhibition has been increasingly used in the last two decades as a biomarker of effect on nervous system following exposure to organophosphate and carbamate pesticides in occupational and environmental medicine. The success of this biomarker arises from the fact that it meets a number of characteristics necessary for the successful application of a biological response as biomarker in human biomonitoring: the response is easy to measure, it shows a dose-dependent behavior to pollutant exposure, it is sensitive, and it exhibits a link to health adverse effects. The aim of this work is to review and discuss the recent findings about acetylcholinesterase, including its sensitivity to other pollutants and the expression of different splice variants. These insights open new perspective for the future use of this biomarker in environmental and occupational human health monitoring.

Published

2013

26. Carbonic anhydrase activity in Mytilus galloprovincialis digestive gland: sensitivity to heavy metal exposure

Author

Roberto, Caricato, Caricato, Roberto, Maria Giulia, Lionetto, Lionetto Maria, Giulia, Francesco, Dondero, Dondero, Francesco, Aldo, Viarengo, Viarengo, Aldo, Trifone, Schettino, Schettino, Trifone, Caricato, R., Lionetto, Maria Giulia, Dondero, F., Viarengo, A., and Schettino, Trifone

Subjects

Physiology, Health, Toxicology and Mutagenesis, Metalloenzyme, chemistry.chemical_element, Mytilus galloprovinciali, Toxicology, Biochemistry, In vivo, Carbonic anhydrase, Metallothionein, Animals, Carbonic Anhydrases, chemistry.chemical_classification, Mytilus, Cadmium, biology, Cell Biology, General Medicine, biology.organism_classification, Molecular biology, In vitro, Enzyme assay, Enzyme, Heavy metal, chemistry, Environmental chemistry, biology.protein, Protein expression, Digestive System, Water Pollutants, Chemical

Abstract

Heavy metals are known to in vitro inhibit carbonic anhydrase (CA) activity in a variety of organisms; however, little is known about their in vivo effects on the activity and the expression of this metalloenzyme. The aim of this work was to investigate the in vitro and in vivo sensitivity to cadmium of CA in the digestive gland of Mytilus galloprovincialis. CA activity and protein expression (apparent molecular mass of about 28 kDa) were demonstrated in mussel digestive gland for the first time. CA activity showed week sensitivity to in vitro cadmium exposure, while it was significantly increased (about 40%) following two weeks in vivo exposure. In parallel, CA protein expression appeared significantly enhanced as demonstrated by Western blotting. Laboratory experimental results were confirmed by a field experiment. Mussels exposed for 30 days to an impacted site showed a significant increase of the CA activity and protein expression with respect to animals exposed to the control site in parallel to the increase of the metallothionein tissutal concentration. In conclusion in the present work for the first time CA activity and protein expression have been demonstrated to be enhanced by the exposure to the trace element cadmium in animals.

Published

2010

27. Intracellular Antioxidant Activity of Grape Skin Polyphenolic Extracts in Rat Superficial Colonocytes: In situ Detection by Confocal Fluorescence Microscopy.

Author

Giordano, M. Elena, Ingrosso, Ilaria, Schettino, Trifone, Caricato, Roberto, Giovinazzo, Giovanna, and Lionetto, M. Giulia

Subjects

FRUIT extracts, ANTIOXIDANTS, COLON (Anatomy), POLYPHENOLS, HYDROGEN peroxide

Abstract

Colon is exposed to a number of prooxidant conditions and several colon diseases are associated with increased levels of reactive species. Polyphenols are the most abundant antioxidants in the diet, but to date no information is available about their absorption and potential intracellular antioxidant activity on colon epithelial cells. The work was addressed to study the intracellular antioxidant activity of red grape polyphenolic extracts on rat colon epithelium experimentally exposed to prooxidant conditions. The experimental model chosen was represented by freshly isolated colon explants, which closely resemble the functional, and morphological characteristics of the epithelium in vivo. The study was carried out by in situ confocal microscopy observation on CM-H2DCFDA charged explants exposed to H2O2 (5, 10, and 15 min). The qualitative and quantitative polyphenolic composition of the extracts as well as their in vitro oxygen radical absorbing capacity (ORAC) was determined. The incubation of the explants with the polyphenolic extracts for 1 h produced a significant decrease of the H2O2 induced fluorescence. This effect was more pronounced following 15 min H2O2 exposure with respect to 5 min and it was also more evident for extracts obtained from mature grapes, which showed an increased ORAC value and qualitative peculiarities in the polyphenolic composition. The results demonstrated the ability of red grape polyphenols to cross the plasma membrane and exert a direct intracellular antioxidant activity in surface colonocytes, inducing a protection against pro-oxidant conditions. The changes in the polyphenol composition due to ripening process was reflected in a more effective antioxidant protection. [ABSTRACT FROM AUTHOR]

Published

2016

28. The Complex Relationship between Metals and Carbonic Anhydrase: New Insights and Perspectives.

Author

Lionetto, Maria Giulia, Caricato, Roberto, Giordano, Maria Elena, and Schettino, Trifone

Subjects

*CARBONIC anhydrase, *METAL research, *METALLOENZYMES, *RESPONSE inhibition, *BIOLOGICAL assay

Abstract

Carbonic anhydrase is a ubiquitous metalloenzyme, which catalyzes the reversible hydration of CO2 to HCO3- and H+. Metals play a key role in the bioactivity of this metalloenzyme, although their relationships with CA have not been completely clarified to date. The aim of this review is to explore the complexity and multi-aspect nature of these relationships, since metals can be cofactors of CA, but also inhibitors of CA activity and modulators of CA expression. Moreover, this work analyzes new insights and perspectives that allow translating new advances in basic science on the interaction between CA and metals to applications in several fields of research, ranging from biotechnology to environmental sciences. [ABSTRACT FROM AUTHOR]

Published

2016

29. Cell Volume Regulation and Apoptotic Volume Decrease in Rat Distal Colon Superficial Enterocytes.

Author

Antico, Stefania, Lionetto, Maria Giulia, Giordano, Maria Elena, Caricato, Roberto, and Schettino, Trifone

Subjects

CELL size, APOPTOSIS, ENTEROCYTES, STEM cells, CELL physiology, COLON (Anatomy), BUMETANIDE, LABORATORY rats

Abstract

Background: The colon epithelium is physiologically exposed to osmotic stress, and the activation of cell volume regulation mechanisms is essential in colonocyte physiology. Moreover, colon is characterized by a high apoptotic rate of mature cells balancing the high division rate of stem cells. Aim: The aim of the present work was to investigate the main cell volume regulation mechanisms in rat colon surface colonocytes and their role in apoptosis. Methods: Cell volume changes were measured by light microscopy and video imaging on colon explants; apoptosis sign appearance was monitored by confocal microscopy on annexin V/propidium iodide labeled explants. Results: Superficial colonocytes showed a dynamic regulation of their cell volume during anisosmotic conditions with a Regulatory Volume Increase (RVI) response following hypertonic shrinkage and Regulatory Volume Decrease (RVD) response following hypotonic swelling. RVI was completely inhibited by bumetanide, while RVD was completely abolished by high K+ or iberiotoxin treatment and by extracellular Ca2+ removal. DIDS incubation was also able to affect the RVD response. When colon explants were exposed to H2O2 as apoptotic inducer, colonocytes underwent an isotonic volume decrease ascribable to Apoptotic Volume Decrease (AVD) within about four hours of exposure. AVD was shown to precede annexin V positivity. It was also inhibited by high K+ or iberiotoxin treatment. Interestingly, treatment with iberiotoxin significantly inhibited apoptosis progression. Conclusions: In rat superficial colonocytes K+ efflux through high conductance Ca2+-activated K+ channels (BK channels) was demonstrated to be the main mechanism of RVD and to plays also a crucial role in the AVD process and in the progression of apoptosis. © 2013 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2013

30. Carbonic Anhydrase as Pollution Biomarker: An Ancient Enzyme with a New Use.

Author

Lionetto, Maria Giulia, Caricato, Roberto, Giordano, Maria Elena, Erroi, Elisa, and Schettino, Trifone

Published

2012

31. Subtle Effects of Biological Invasions: Cellular and Physiological Responses of Fish Eating the Exotic Pest Caulerpa racemosa.

Author

Felline, Serena, Caricato, Roberto, Cutignano, Adele, Gorbi, Stefania, Lionetto, Maria Giulia, Mollo, Ernesto, Regoli, Francesco, and Terlizzi, Antonio

Subjects

*CAULERPA, *NONINDIGENOUS pests, *NATURAL selection, *HEMOPROTEINS, *MICROBODIES, *OXIDOREDUCTASES, *ACETYLCHOLINESTERASE

Abstract

The green alga Caulerpa racemosa var. cylindracea has invaded Mediterranean seabed including marine reserves, modifying the structure of habitats and altering the distributional patterns of associated organisms. However, the understanding of how such invasion can potentially affect functional properties of Mediterranean subtidal systems is yet to be determined. In this study, we show that C. racemosa changes foraging habit of the native white seabream, Diplodus sargus. In invaded areas, we found a high frequency of occurrence of C. racemosa in the stomach contents of this omnivorous fish (72.7 and 85.7%), while the alga was not detected in fish from a control area. We also found a significant accumulation of caulerpin, one of the main secondary metabolites of C. racemosa, in fish tissues. The level of caulerpin in fish tissues was used here as an indicator of the trophic exposure to the invasive pest and related with observed cellular and physiological alterations. Such effects included activation of some enzymatic pathways (catalase, glutathione peroxidases, glutathione S-transferases, total glutathione and the total oxyradical scavenging capacity, 7-ethoxy resorufin O-deethylase), the inhibition of others (acetylcholinesterase and acylCoA oxidase), an increase of hepatosomatic index and decrease of gonadosomatic index. The observed alterations might lead to a detrimental health status and altered behaviours, potentially preventing the reproductive success of fish populations. Results of this study revealed that the entering of alien species in subtidal systems can alter trophic webs and can represent an important, indirect mechanism which might contribute to influence fluctuations of fish stocks and, also, the effectiveness of protection regimes. [ABSTRACT FROM AUTHOR]

Published

2012

32. Seasonal variation of biomarkers in Mytilus galloprovincialis sampled inside and outside Mar Piccolo of Taranto (Italy).

Author

Caricato, Roberto, Lionetto, MariaGiulia, and Schettino, Trifone

Subjects

*BIOMARKERS, *METALLOTHIONEIN, *ACETYLCHOLINESTERASE

Abstract

The aim of this work was to study spatial and temporal variation in biomarkers in autochthonous Mytilus galloprovincialis sampled inside and outside Mar Piccolo of Taranto, a typical polluted semi-enclosed basin of the Mediterranean Sea characterised by scarce hydrodynamism. Mar Piccolo of Taranto represents a site of Italian National Interest because of the high level of pollution. A battery of biomarkers (lysosomal destabilisation, catalase, metallothioneins, acetylcholinesterase, air survival) was applied to assess pollution-induced stress effects in authoctonous mussels. The responses were analysed comparatively in two different seasons, summer and winter, in order to assess possible changes in the pollutant-induced stress syndrome throughout the year. No significant difference inside and outside Mar Piccolo was observed for metallothioneins. By contrast, the dramatically decreased acetylcholinesterase values and strongly increased catalase activity in organisms taken from Mar Piccolo in winter indicate an increased risk of exposure to anticholinesterase compounds during this season. The results suggest the importance of temporal variability in biomarker responses throughout the year for monitoring possible seasonal changes in the pollutant-induced stress syndrome of organisms living in a certain environment and, in turn, more properly detecting changes in ecotoxicological risks. [ABSTRACT FROM AUTHOR]

Published

2010

33. Role of BK Channels in the Apoptotic Volume Decrease in Native Eel Intestinal Cells.

Author

Lionetto, Maria Giulia, Giordano, Maria Elena, Calisi, Antonio, Caricato, Roberto, Hoffmann, Else Kay, and Schettino, Trifone

Subjects

EELS, APOPTOSIS, EPITHELIAL cells, INTESTINES, POTASSIUM channels

Abstract

High conductance Ca+-activated K+ channels (BK channels) have previously been demonstrated in the eel intestine. They are specifically activated following a hypotonic stress and sustain Regulatory Volume Decrease (RVD). The aim of the present work was to address the possible role of these channels in the Apoptotic Volume Decrease (AVD) of isolated eel enterocytes, and the possible interaction between BK channels and the progression of apoptosis. The detection of apoptosis was performed by confocal microscopy and annexin V and propidium iodide labelling; cell volume changes were monitored by video imaging. Within a few hours after isolation, enterocytes underwent anoikis (apoptosis induced by detachment from the extracellular matrix). They showed an early normotonic volume decrease (AVD) preceding the appearance of annexin V positivity. AVD occurred in correspondence with an increase in the [Ca2+]i, measured with Fura-2. When the cells were resuspended in high K+ solution or treated with iberiotoxin, AVD was completely abolished. In addition, treatment with high K+ or iberiotoxin significantly inhibited apoptosis progression. It was demonstrated for the first time in native enterocytes that BK channels, which are involved in RVD in these cells, plays also a crucial role in the AVD process and in the progression of apoptosis. Copyright © 2010 S. Karger AG, Basel [ABSTRACT FROM AUTHOR]

Published

2010

34. MORPHOMETRIC ALTERATIONS IN MYTILUS GALLOPROVINCIALIS GRANULOCYTES: A NEW BIOMARKER.

Author

Calisi, Antonio, Lionetto, Maria Giulia, Caricato, Roberto, Giordano, Maria Elena, and Schettino, Trifone

Subjects

BIOCHEMICAL toxicology, BIVALVES, MYTILIDAE, BIOINDICATORS, BIOMARKERS, MYTILUS galloprovincialis, GRANULOCYTES, IMAGE analysis, BLOOD cells, METALLOTHIONEIN, POLLUTANTS, MOLLUSKS

Abstract

Bivalve molluscs, particularly marine mussels, are used widely as sentinel organisms in environmental quality monitoring and assessment. Biochemical and cellular responses to pollutant exposure (i.e., biomarkers) increasingly are investigated in mussel tissues and their measurements largely used in marine environmental monitoring. The aim of the present study was to investigate possible pollutant-induced morphometric alterations in Mytilus galloprovincialis granulocytes in view of future applications as a sensitive, simple, and quick biomarker for monitoring and assessment applications. Granulocyte morphometric alterations were determined by image analysis on Diff-Quick® stained cells. For the first time, the rapid alcohol-fixed Diff-Quick stain protocol, utilized in clinical and veterinary applications for immediate interpretation of histological samples, was shown to be suitable for rapid cytological staining of M. galloprovincialis haemocytes. The present study was carried out in standardized laboratory conditions and further validated in field conditions. Results show consistent pollutant-induced enlargement of mussel granulocytes. This was verified by standardized biomarkers such as metallothionein concentrations in the digestive gland or lysosomal membrane stability in laboratory and field exposures. Results further suggest that the observed morphometric alterations can be used as a biomarker of chemical stress. Because no single biomarker generally is adequate for describing the complexity of effects induced by environmental pollutants on the organisms, we propose that morphometric alterations of granulocytes should be used in a biomarker battery in marine environmental monitoring programs such as Mussel Watch. [ABSTRACT FROM AUTHOR]

Published

2008

35. Carbonic anhydrase-based environmental bioassay.

Author

Lionetto, Maria Giulia, Caricato, Roberto, Erroi, Elisa, Giordano, Maria Elena, and Schettino, Trifone

Subjects

*CARBONIC anhydrase, *ENVIRONMENTAL monitoring, *BIOLOGICAL assay, *ENZYME inhibitors, *CARBARYL, *HEAVY metals

Abstract

Carbonic anhydrase (CA) is a metalloenzyme catalysing the reversible idratation of CO2 in H + and . It is an ubiquitous enzyme in bacteria, plant and animal kingdoms, playing a fundamental role in a number of physiological processes. Previous studies demonstrated the sensitivity of CA activity to dichlorodiphenyl-dichloroethane (DDT) exposure in birds and to cadmium exposure in teleosts. The aim of the present work was to develop a new in vitro enzymatic bioassay for detecting toxic chemicals in environmental samples as a cost-effective tool in environmental monitoring. This bioassay uses the commercial available CA isozyme II from bovine erythrocytes whose sensitivity to the main classes of chemical pollutants of importance in water quality research was tested in this work. CA activity was determined by a modification of the electrometric method previously described by Wilbur and Anderson [K.M. Wilbur, G.N. Anderson. J. Biol. Chem. , 176 , 147 (1948).]: briefly, CA activity units were calculated from the rate of H + production in the reaction mixture (where CO2 was present as substrate) against a blank containing the specific CA inhibitor acetazolamide. [H + ] variation was followed at 0°C in the reaction mixture using a Mettler Delta 350  pH-meter. In our experimental set-up bovine CA activity was significantly inhibited by heavy metals (Cd, Cu and Hg), by the organochlorate compound arochlor and by the carbammate pesticides carbaryl in a dose-dependent manner. CA in vitro bioassay can represent a novel tool for rapid and low cost understanding of the toxicity of environmental samples, for assessing bioavailability of pollutants in environmental matrices and their additive or synergistic biological effects when present in mixtures. [ABSTRACT FROM AUTHOR]

Published

2005

36. Pollution Biomarkers in the Framework of Marine Biodiversity Conservation: State of Art and Perspectives.

Author

Lionetto, Maria Giulia, Caricato, Roberto, and Giordano, Maria Elena

Subjects

MARINE biodiversity conservation, MARINE pollution, MARINE biodiversity, ART conservation & restoration, ENVIRONMENTAL monitoring, POLLUTANTS

Abstract

Marine biodiversity is threatened by several anthropogenic pressures. Pollution deriving from the discharge of chemical contaminants in the sea represents one of the main threats to the marine environment, influencing the health of organisms, their ability to recover their homeostatic status, and in turn endangering biodiversity. Molecular and cellular responses to chemical pollutants, known as biomarkers, are effect-based methodologies useful for detecting exposure and for assessing the effects of pollutants on biota in environmental monitoring. The present review analyzes and discusses the recent literature on the use of biomarkers in the framework of biodiversity conservation. The study shows that pollution biomarkers can be useful tools for monitoring and assessment of pollution threat to marine biodiversity, both in the environmental quality monitoring of protected areas and the assessment of the health status of species at risk. Moreover, key areas of the research that need further development are suggested, such as the development of omics-based biomarkers specifically addressed to conservation purposes and their validation in the field, the extension of the biomarker study to a wider number of endangered species, and the development of organic guidelines for the application of the biomarker approach in support to conservation policies and management. [ABSTRACT FROM AUTHOR]

Published

2021

37. Oxidative Potential, Cytotoxicity, and Intracellular Oxidative Stress Generating Capacity of PM 10 : A Case Study in South of Italy.

Author

Lionetto, Maria Giulia, Guascito, Maria Rachele, Giordano, Maria Elena, Caricato, Roberto, De Bartolomeo, Anna Rita, Romano, Maria Pia, Conte, Marianna, Dinoi, Adelaide, and Contini, Daniele

Subjects

OXIDATIVE stress, GENETIC toxicology, BIOLOGICAL assay, PARTICULATE matter

Abstract

Long and short-term exposure to atmospheric particulate matter (PM) has detrimental effects on human health. The effective mechanisms leading to PM toxicity are still not fully understood, even if it is known that physical-chemical properties, strongly influenced by sources and atmospheric processes, are known to play an important role. In this work, PM10 samples were collected, at an urban background site in southern Italy, to determine cytotoxicity (using MTT test on A549 cells), genotoxicity (using the comet assay), and intracellular oxidative stress on A549 cells exposed for 24 h to aqueous extracts of PM10 samples. Organic carbon (OC) and elemental carbon (EC) content of PM10 and acellular determination of oxidative potential with DTT assay were performed to compare results of acellular and cellular biological assays. Cellular (OSGCV and MTTV) and acellular (OPDTTV) outcomes, normalized in volume, are well correlated (statistically significant results) with carbon content suggesting that combustion sources play an important role in determining cellular oxidative stress and cytotoxicity of PM10. Even if the number of data is limited, genotoxicity results are well correlated (Pearson r > 0.95) with OSGCV and MTTV, and a weaker, but statistically significant correlation was observed with OPDTTV. OSGCV is well correlated with the cell mortality observed with the MTTV test and a lower, but still statistically significant correlation is observed between MTTV and OPDDTV. A statistically significant correlation was found between OPDTTV and OSGCV results. When the outcomes of the cellular and acellular assay are compared normalized in mass (i.e., intrinsic values), the correlations become significantly weaker suggesting that the different sources acting on the site produces particulate matter with different toxicological potential influencing differently the biological tests studied. [ABSTRACT FROM AUTHOR]

Published

2021

38. Concentration Dependence of the Antioxidant and Prooxidant Activity of Trolox in HeLa Cells: Involvement in the Induction of Apoptotic Volume Decrease.

Author

Giordano, Maria Elena, Caricato, Roberto, and Lionetto, Maria Giulia

Subjects

HELA cells, VITAMIN E, CELL size, ANTIOXIDANTS, CELL survival

Abstract

Trolox (6-hydroxy-2,5,7,8-tetramethylchroman-2-carboxylic acid), a hydrophilic analog of vitamin E, is known for its strong antioxidant activity, being a high radical scavenger of peroxyl and alkoxyl radicals. Under particular conditions, Trolox may also exhibit prooxidant properties. The present work aimed at studying the dual antioxidant/prooxidant behavior of Trolox over a wide range of concentrations (from 2.5 to 160 µM) in HeLa cells. In particular, the study addressed the dose-dependent effects of Trolox on the oxidative cell status and vitality of HeLa cells, focusing on the potential role of the vitamin E analog in the induction of one of the first steps of the apoptotic process, Apoptotic Volume Decrease (AVD). In HeLa cells, Trolox showed significant antioxidant activity, expressed as the ability to reduce the endogenous ROS production detected by the ROS-sensitive probe 5-(and-6)-chloromethyl-2′,7′-dichlorodihydrofluorescein diacetate (CM-H2DCFDA), at low concentrations (range: 2.5–15 µM), but exerted a dose-dependent prooxidant effect at higher concentrations after 24 h exposure. The prooxidant effect was paralleled by the reduction in cell viability due to the induction of the apoptotic process. The dual behavior, antioxidant at lower concentrations and prooxidant at higher concentrations, was evident also earlier after 2 h incubation, and it was paralleled by the isotonic shrinkage of the cells, ascribed to AVD. The use of SITS, known Cl− channel blocker, was able to completely inhibit the Trolox-induced isotonic cell shrinkage, demonstrating the involvement of the vitamin E analog in the alteration of cell volume homeostasis and, in turn, in the AVD induction. In conclusion, the study shed light on the concentration dependence of the Trolox antioxidant/prooxidant activity in HeLa cells and revealed its role in the induction of one of the first events of apoptosis, AVD, at high concentrations. [ABSTRACT FROM AUTHOR]

Published

2020

39. Carbonic Anhydrase Sensitivity to Pesticides: Perspectives for Biomarker Development.

Author

Lionetto, Maria Giulia, Caricato, Roberto, and Giordano, Maria Elena

Subjects

*CARBONIC anhydrase, *PESTICIDES, *ENVIRONMENTAL medicine, *ENVIRONMENTAL monitoring, *BENZENESULFONAMIDES, *OCCUPATIONAL medicine, *BIOLOGICAL monitoring

Abstract

Carbonic anhydrase (CA) is a widespread metalloenzyme playing a pivotal role in several physiological processes. Many studies have demonstrated the in vitro and in vivo sensitivity of CA to the exposure to several classes of pesticides in both humans and wildlife. This review aims to analyze and to discuss the literature available in this field, providing a comprehensive view useful to foresee perspectives for the development of novel CA-based pesticide biomarkers. The analysis of the available data highlighted the ability of several pesticide molecules to interact directly with the enzyme in humans and wildlife and to inhibit CA activity in vitro and in vivo, with possible alterations of key physiological functions. The analysis disclosed key areas of further research and, at the same time, identified some perspectives for the development of novel CA-based sensitive biomarkers to pesticide exposure, suitable to be used in several fields from human biomonitoring in occupational and environmental medicine to environmental monitoring on non-target species. [ABSTRACT FROM AUTHOR]

Published

2020

40. Correlation of Oxidative Potential with Ecotoxicological and Cytotoxicological Potential of PM10 at an Urban Background Site in Italy.

Author

Lionetto, Maria Giulia, Guascito, Maria Rachele, Caricato, Roberto, Giordano, Maria Elena, De Bartolomeo, Anna Rita, Romano, Maria Pia, Conte, Marianna, Dinoi, Adelaide, and Contini, Daniele

Subjects

VIBRIO fischeri, PARTICULATE matter, TOXICITY testing, UBIQUINONES, OXIDATIVE stress, HEALTH status indicators, VIBRIO harveyi

Abstract

Exposure to atmospheric particulate matter (PM) has detrimental effects on health, but specific mechanisms of toxicity are still not fully understood. In recent years, there has been a growing evidence that oxidative stress is an important mechanism of toxicity; however, when acellular oxidative potential (OP) data are correlated with the outcomes of in vitro (or in vivo) toxicological tests there are contrasting results. In this work, an analysis of PM10 health effect indicators was done, using the acellular Dithiotreitol (DTT) assay to retrieve OPDTT, the Microtox® test on Vibrio fischeri bacterium to assess the ecotoxicological potential, and the in vitro MTT assay on the human cell line A549 to estimate the cytotoxicological potential. The objective was to evaluate the correlation among acellular OPDTT and the results from toxicological and ecotoxicological bioassays and how these health-related indicators are correlated with atmospheric PM10 concentrations collected at an urban background site in Southern Italy. Results indicated that both bioassays showed time-dependent and dose-dependent outcomes. Some samples presented significant ecotoxic and cytotoxic response and the correlation with PM10 concentration was limited suggesting that these health endpoints depend on PM10 chemical composition and not only on exposure concentrations. OPDTT showed a statistically significant correlation with PM10 concentrations. MTT and Microtox outcomes were not correlated suggesting that the two toxicological indicators are sensitive to different physical-chemical properties of PM10. Intrinsic oxidative potential OPDTTM (DTT activity normalised with PM10 mass) was correlated with mortality observed with MTT test (normalized with PM10 mass); however, it was not correlated with Microtox outcomes. [ABSTRACT FROM AUTHOR]

Published

2019

41. Intracellular antioxidant activity of grape skin polyphenolic extracts in rat superficial colonocytes: in situ detection by confocal fluorescence microscopy

Author

Giovanna Giovinazzo, Roberto Caricato, M. Giulia Lionetto, Ilaria Ingrosso, M. Elena Giordano, Trifone Schettino, Giordano, Maria Elena, Ingrosso, Ilaria, Schettino, Trifone, Caricato, Roberto, Giovinazzo, Giovanna, and Lionetto, Maria Giulia

Subjects

0301 basic medicine, Antioxidant, antioxidant, Physiology, Colon, medicine.medical_treatment, hydrogen peroxide, Absorption (skin), lcsh:Physiology, law.invention, 03 medical and health sciences, 0302 clinical medicine, H2DCFDA, In vivo, Confocal microscopy, law, Physiology (medical), medicine, Fluorescence microscope, Original Research, colon, lcsh:QP1-981, Chemistry, food and beverages, Polyphenols, Hydrogen Peroxide, In vitro, polyphenol, 030104 developmental biology, Biochemistry, Polyphenol, 030211 gastroenterology & hepatology, Intracellular

Abstract

Colon is exposed to a number of prooxidant conditions and several colon diseases are associated with increased levels of reactive species. Polyphenols are the most abundant antioxidants in the diet, but to date no information is available about their absorption and potential intracellular antioxidant activity on colon epithelial cells. The work was addressed to study the intracellular antioxidant activity of red grape polyphenolic extracts on rat colon epithelium experimentally exposed to prooxidant conditions. The experimental model chosen was represented by freshly isolated colon explants, which closely resemble the functional, and morphological characteristics of the epithelium in vivo. The study was carried out by in situ confocal microscopy observation on CM-H2DCFDA charged explants exposed to H2O2 (5, 10, and 15 min). The qualitative and quantitative polyphenolic composition of the extracts as well as their in vitro oxygen radical absorbing capacity (ORAC) was determined. The incubation of the explants with the polyphenolic extracts for 1 h produced a significant decrease of the H2O2 induced fluorescence. This effect was more pronounced following 15 min H2O2 exposure with respect to 5 min and it was also more evident for extracts obtained from mature grapes, which showed an increased ORAC value and qualitative peculiarities in the polyphenolic composition. The results demonstrated the ability of red grape polyphenols to cross the plasma membrane and exert a direct intracellular antioxidant activity in surface colonocytes, inducing a protection against pro-oxidant conditions. The changes in the polyphenol composition due to ripening process was reflected in a more effective antioxidant protection.

Published

2016

42. Biomonitoring of water and soil quality: a case study of ecotoxicological methodology application to the assessment of reclaimed agroindustrial wastewaters used for irrigation

Author

A. Calisi, Maria Giulia Lionetto, E. Erroi, Roberto Caricato, Trifone Schettino, Maria Elena Giordano, Lionetto, Maria Giulia, Caricato, Roberto, Calisi, Antonio, Giordano, Maria Elena, Erroi, Elisa, and Schettino, Trifone

Subjects

021110 strategic, defence & security studies, Eisenia fetida, biology, Daphnia magna, 0211 other engineering and technologies, 02 engineering and technology, 010501 environmental sciences, biology.organism_classification, 01 natural sciences, Soil quality, Biomonitoring, Ecotoxicological bioassay, Biomarkers, Soil, Reclaimed wastewaters, Wastewater, Environmental chemistry, Biomonitoring, Soil water, General Earth and Planetary Sciences, Environmental science, Sewage treatment, Ecotoxicity, General Agricultural and Biological Sciences, 0105 earth and related environmental sciences, General Environmental Science

Abstract

The aim of the work was to evaluate the ecotoxicity of reclaimed agroindustrial wastewaters used for irrigation through ecotoxicological bioassays and biomarkers. The ecotoxicological monitoring was addressed on both treated wastewaters and irrigated soils. Wastewater biomonitoring was performed by the acute test with Daphnia magna, the Microtox® test, and a new in vitro patented method. Soil quality monitoring was performed by the acute and chronic tests with the earthworm Eisenia fetida and biomarker analysis, such as lysosomal membrane stability, general stress biomarker of chemical pollution, and metallothionein, specific biomarker of exposure to heavy metals. Overall the integrated ecotoxicological analysis excluded the presence of ecotoxicity both in the reclaimed waters resulting from tertiary treatment and in the irrigated soils. In particular, the analysis of metallothionein allowed to exclude the accumulation of bioavailable heavy metals in the soil. This study suggests the suitability of ecotoxicological methods for the biomonitoring of water and soil during the reclaimed wastewaters reuse for irrigation, contributing to improving the process of agricultural re-use of wastewater in terms of assessment of the toxicological safety of the waters for the environment, for traders and consumers.

Published

2016

43. Cell Volume Regulation and Apoptotic Volume Decrease in Rat Distal Colon Superficial Enterocytes

Author

Maria Giulia Lionetto, Roberto Caricato, Stefania Antico, Maria Elena Giordano, Trifone Schettino, S., Antico, Lionetto, Maria Giulia, Giordano, Maria Elena, Caricato, Roberto, and Schettino, Trifone

Subjects

Male, BK channel, Potassium Channels, Physiology, Colon, Apoptosis, Biology, lcsh:Physiology, lcsh:Biochemistry, chemistry.chemical_compound, Annexin, Cell volume, Extracellular, medicine, Animals, lcsh:QD415-436, Propidium iodide, Intestinal Mucosa, Rats, Wistar, Bumetanide, Cells, Cultured, cell volume, Cell Size, Ions, Microscopy, Confocal, AVD, lcsh:QP1-981, Apoptosi, Hydrogen Peroxide, Iberiotoxin, Calcium-activated potassium channel, Cell biology, Rats, Enterocytes, chemistry, Biochemistry, RVD, biology.protein, Potassium, RVI, Calcium, Calcium activated potassium channel, Peptides, medicine.drug

Abstract

Background: The colon epithelium is physiologically exposed to osmotic stress, and the activation of cell volume regulation mechanisms is essential in colonocyte physiology. Moreover, colon is characterized by a high apoptotic rate of mature cells balancing the high division rate of stem cells. Aim: The aim of the present work was to investigate the main cell volume regulation mechanisms in rat colon surface colonocytes and their role in apoptosis. Methods: Cell volume changes were measured by light microscopy and video imaging on colon explants; apoptosis sign appearance was monitored by confocal microscopy on annexin V/propidium iodide labeled explants. Results: Superficial colonocytes showed a dynamic regulation of their cell volume during anisosmotic conditions with a Regulatory Volume Increase (RVI) response following hypertonic shrinkage and Regulatory Volume Decrease (RVD) response following hypotonic swelling. RVI was completely inhibited by bumetanide, while RVD was completely abolished by high K + or iberiotoxin treatment and by extracellular Ca 2+ removal. DIDS incubation was also able to affect the RVD response. When colon explants were exposed to H 2 O 2 as apoptotic inducer, colonocytes underwent an isotonic volume decrease ascribable to Apoptotic Volume Decrease (AVD) within about four hours of exposure. AVD was shown to precede annexin V positivity. It was also inhibited by high K + or iberiotoxin treatment. Interestingly, treatment with iberiotoxin significantly inhibited apoptosis progression. Conclusions: In rat superficial colonocytes K + efflux through high conductance Ca 2+ -activated K + channels (BK channels) was demonstrated to be the main mechanism of RVD and to plays also a crucial role in the AVD process and in the progression of apoptosis.

Published

2013

44. Carbonic anhydrase based environmental bioassay

Author

Maria Elena Giordano, Maria Giulia Lionetto, E. Erroi, Roberto Caricato, Trifone Schettino, Lionetto, Maria Giulia, Caricato, Roberto, Erroi, Elisa, Giordano, Maria Elena, and Schettino, Trifone

Subjects

In vitro bioassay, Health, Toxicology and Mutagenesis, Soil Science, Carbaryl, Analytical Chemistry, chemistry.chemical_compound, Carbonic anhydrase, Environmental Chemistry, Bioassay, Waste Management and Disposal, Water Science and Technology, chemistry.chemical_classification, Arochlor 1248, biology, Public Health, Environmental and Occupational Health, Heavy metals, biology.organism_classification, Pollution, Enzyme inhibition, Enzyme, Heavy metal, chemistry, Biochemistry, Environmental chemistry, biology.protein, Bacteria

Abstract

Carbonic anhydrase (CA) is a metalloenzyme catalysing the reversible idratation of CO2 in Hþ and HCO3 . It is an ubiquitous enzyme in bacteria, plant and animal kingdoms, playing a fundamental role in a number of physiological processes. Previous studies demonstrated the sensitivity of CA activity to dichlorodiphenyl-dichloroethane (DDT) exposure in birds and to cadmium exposure in teleosts. The aim of the present work was to develop a new in vitro enzymatic bioassay for detecting toxic chemicals in environmental samples as a cost-effective tool in environmental monitoring. This bioassay uses the commercial available CA isozyme II from bovine erythrocytes whose sensitivity to the main classes of chemical pollutants of importance in water quality research was tested in this work. CA activity was determined by a modification of the electrometric method previously described by Wilbur and Anderson [K.M. Wilbur, G.N. Anderson. J. Biol. Chem., 176, 147 (1948).]: briefly, CA activity units were calculated from the rate of Hþ production in the reaction mixture (where CO2 was present as substrate) against a blank containing the specific CA inhibitor acetazolamide. [Hþ] variation was followed at 0C in the reaction mixture using a Mettler Delta 350 pH-meter. In our experimental set-up bovine CA activity was significantly inhibited by heavy metals (Cd, Cu and Hg), by the organochlorate compound arochlor and by the carbammate pesticides carbaryl in a dose-dependent manner. CA in vitro bioassay can represent a novel tool for rapid and low cost understanding of the toxicity of environmental samples, for assessing bioavailability of pollutants in environmental matrices and their additive or synergistic biological effects when present in mixtures.

Published

2005

45. Biomonitoring of heavy metal contamination along the salento Coast (Italy) by metallothionein evaluation in Mytilus galloprovincialis and mullus barbatus

Author

M.F. Pascariello, Roberto Caricato, Maria Elena Giordano, Maria Giulia Lionetto, Trifone Schettino, L. Marinosci, Lionetto, Maria Giulia, Giordano, Maria Elena, Caricato, Roberto, PASCARIELLO M., F, Marinosci, L, and Schettino, Trifone

Subjects

Mullus barbatus, mullu, Metal contamination, Ecology, biology, mytilus, Heavy metals, Aquatic Science, biology.organism_classification, metallothionein, Mytilus, Fight-or-flight response, Fishery, Biomonitoring, biomonitoring, Metallothionein, biomarker, Mullus, Nature and Landscape Conservation

Abstract

1. The aim of the present study was to identify possible ecotoxicological risk of heavy metal contamination along the coast of the Salento Peninsula (South of Italy) evaluating levels of metallothioneins (Mts), by a spectrophotometric method, in two bioindicator species: Mytilus galloprovincialis and Mullus barbatus. 2. Cellular stress response to heavy metals, indicated by increased levels of Mt, measured in marine organisms can represent an early warning of heavy metal contamination along the Salento coast particularly at the hot spot of Brindisi and act as an alert for possible toxic effects on higher level organisms. Copyright © 2001 John Wiley & Sons, Ltd.

Published

2001

46. Carbonic anhydrase activity in Mytilus galloprovincialis digestive gland: sensitivity to heavy metal exposure.

Author

Caricato R, Lionetto MG, Dondero F, Viarengo A, and Schettino T

Subjects

Animals, Digestive System drug effects, Digestive System enzymology, Mytilus drug effects, Cadmium toxicity, Carbonic Anhydrases metabolism, Mytilus enzymology, Water Pollutants, Chemical toxicity

Abstract

Heavy metals are known to in vitro inhibit carbonic anhydrase (CA) activity in a variety of organisms; however, little is known about their in vivo effects on the activity and the expression of this metalloenzyme. The aim of this work was to investigate the in vitro and in vivo sensitivity to cadmium of CA in the digestive gland of Mytilus galloprovincialis. CA activity and protein expression (apparent molecular mass of about 28 kDa) were demonstrated in mussel digestive gland for the first time. CA activity showed week sensitivity to in vitro cadmium exposure, while it was significantly increased (about 40%) following two weeks in vivo exposure. In parallel, CA protein expression appeared significantly enhanced as demonstrated by Western blotting. Laboratory experimental results were confirmed by a field experiment. Mussels exposed for 30 days to an impacted site showed a significant increase of the CA activity and protein expression with respect to animals exposed to the control site in parallel to the increase of the metallothionein tissutal concentration. In conclusion in the present work for the first time CA activity and protein expression have been demonstrated to be enhanced by the exposure to the trace element cadmium in animals., (Copyright (c) 2010 Elsevier Inc. All rights reserved.)

Published

2010