The notable increase in agricultural and industrial activities over the last decades has caused a considerable increase in anthropogenic waste and, consequently, the presence of pollutants in both water and sediments. For this reason, there is great interest in identifying alternative models and bioassays complying with the 3Rs strategy (aimed at Reducing, Refining and Replacing tests on vertebrate organisms in toxicological studies). Protozoa seem to be well suited to this strategy and it is widely accepted that assays with protozoa are relevant to the study of environmental modifications due to the presence of xenobiotic compounds. Recently, we detected the presence of nitric oxide synthase (NOS)-related NADPH-diaphorase activity and neuronal NOS-relatedmolecules, immunologically recognized by the anti-rat brain NOS antibody, in a single-cell freshwater eukaryote, Paramecium primaurelia. In this work we have looked for the basal NO production in living cells of P. primaurelia using the specific fluorescent probe 4,5-diaminofluorescein diacetate (DAF-2 DA) and measuring the intracellular NO levels with image analysis. The NO production was sensitive to compounds modulating NOS activity such as: S-methyl-tiocitrulline, an NOS activity inhibitor, L-NAME, an analogue of arginine that inhibits NO production, arginine, an NOS substrate, or sodium nitroprusside, an NO donor. The NO production in P. primaurelia was also shown to be sensitive to mM concentrations of heavy metals (HgCl2 and CdCl2), or mM concentrations of pesticides (diazinon and AFD 25), thus representing a potential biomarker for environmental biomonitoring. The possible involvement of cellular Ca2+ concentration, assayed by the fluorescent probe chlortetracycline hydrochloride, in NO production was examined after xenobiotic exposure.

Nitric oxide production is inhibited by xenobiotic compounds in the protozoan Paramecium primaurelia.

AMAROLI A;CHESSA, MARIA GIOVANNA;
2010-01-01

Abstract

The notable increase in agricultural and industrial activities over the last decades has caused a considerable increase in anthropogenic waste and, consequently, the presence of pollutants in both water and sediments. For this reason, there is great interest in identifying alternative models and bioassays complying with the 3Rs strategy (aimed at Reducing, Refining and Replacing tests on vertebrate organisms in toxicological studies). Protozoa seem to be well suited to this strategy and it is widely accepted that assays with protozoa are relevant to the study of environmental modifications due to the presence of xenobiotic compounds. Recently, we detected the presence of nitric oxide synthase (NOS)-related NADPH-diaphorase activity and neuronal NOS-relatedmolecules, immunologically recognized by the anti-rat brain NOS antibody, in a single-cell freshwater eukaryote, Paramecium primaurelia. In this work we have looked for the basal NO production in living cells of P. primaurelia using the specific fluorescent probe 4,5-diaminofluorescein diacetate (DAF-2 DA) and measuring the intracellular NO levels with image analysis. The NO production was sensitive to compounds modulating NOS activity such as: S-methyl-tiocitrulline, an NOS activity inhibitor, L-NAME, an analogue of arginine that inhibits NO production, arginine, an NOS substrate, or sodium nitroprusside, an NO donor. The NO production in P. primaurelia was also shown to be sensitive to mM concentrations of heavy metals (HgCl2 and CdCl2), or mM concentrations of pesticides (diazinon and AFD 25), thus representing a potential biomarker for environmental biomonitoring. The possible involvement of cellular Ca2+ concentration, assayed by the fluorescent probe chlortetracycline hydrochloride, in NO production was examined after xenobiotic exposure.
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Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11567/217538
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