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  • Combined effects of thermal stress and Cd on lysosomal biomarkers and transcription of genes encoding lysosomal enzymes and HSP70 in mussels, Mytilus galloprovincialis.

Combined effects of thermal stress and Cd on lysosomal biomarkers and transcription of genes encoding lysosomal enzymes and HSP70 in mussels, Mytilus galloprovincialis.

Aquatic toxicology (Amsterdam, Netherlands) (2014-03-25)
Urtzi Izagirre, Aitzpea Errasti, Eider Bilbao, María Múgica, Ionan Marigómez
ZUSAMMENFASSUNG

In estuaries and coastal areas, intertidal organisms may be subject to thermal stress resulting from global warming, together with pollution. In the present study, the combined effects of thermal stress and exposure to Cd were investigated in the endo-lysosomal system of digestive cells in mussels, Mytilus galloprovincialis. Mussels were maintained for 24h at 18°C and 26°C seawater temperature in absence and presence of 50 μg Cd/L seawater. Cadmium accumulation in digestive gland tissue, lysosomal structural changes and membrane stability were determined. Semi-quantitative PCR was applied to reveal the changes elicited by the different experimental conditions in hexosaminidase (hex), β-glucuronidase (gusb), cathepsin L (ctsl) and heat shock protein 70 (hsp70) gene transcription levels. Thermal stress provoked lysosomal enlargement whilst Cd-exposure led to fusion of lysosomes. Both thermal stress and Cd-exposure caused lysosomal membrane destabilisation. hex, gusb and ctsl genes but not hsp70 gene were transcriptionally up-regulated as a result of thermal stress. In contrast, all the studied genes were transcriptionally down-regulated in response to Cd-exposure. Cd bioaccumulation was comparable at 18°C and 26°C seawater temperatures but interactions between thermal stress and Cd-exposure were remarkable both in lysosomal biomarkers and in gene transcription. hex, gusb and ctsl genes, reacted to elevated temperature in absence of Cd but not in Cd-exposed mussels. Therefore, thermal stress resulting from global warming might influence the use and interpretation of lysosomal biomarkers in marine pollution monitoring programmes and, vice versa, the presence of pollutants may condition the capacity of mussels to respond against thermal stress in a climate change scenario.

MATERIALIEN
Produktnummer
Marke
Produktbeschreibung

Sigma-Aldrich
Cadmium, granular, 30-80 mesh, ≥99%
Sigma-Aldrich
Cadmium, powder, −100 mesh, 99.5% trace metals basis
Sigma-Aldrich
Cadmium, granular, ≥99%, 5-20 mesh
Sigma-Aldrich
Cadmium, shot, 3 mm, 99.999% trace metals basis
Cadmium, foil, 10mm disks, thickness 1.0mm, as rolled, 100%
Cadmium, rod, 25mm, diameter 40mm, 99.9%
Cadmium, rod, 100mm, diameter 10.0mm, 99.999%
Cadmium, rod, 200mm, diameter 10.0mm, 99.999%
Cadmium, foil, 100x100mm, thickness 1.0mm, as rolled, 99.99%
Cadmium, rod, 100mm, diameter 40mm, 99.9%
Cadmium, rod, 50mm, diameter 40mm, 99.9%
Cadmium, foil, 100x100mm, thickness 0.125mm, as rolled, 99.95%
Cadmium, rod, 50mm, diameter 10.0mm, 99.999%
Cadmium, foil, light tested, 100x100mm, thickness 0.05mm, as rolled, 99.99+%
Cadmium, foil, 50x50mm, thickness 2.0mm, as rolled, 99.99%
Cadmium, foil, 30x150mm, thickness 0.5mm, as rolled, 99.999%
Cadmium, foil, not light tested, 25x25mm, thickness 0.001mm, 99.7+%
Cadmium, foil, 300x300mm, thickness 0.5mm, as rolled, 99.99%
Cadmium, foil, 50x50mm, thickness 0.125mm, as rolled, 99.95%
Cadmium, foil, 30x50mm, thickness 0.5mm, as rolled, 99.999%
Cadmium, foil, 2m coil, thickness 0.5mm, as rolled, 100%
Cadmium, tube, 500mm, outside diameter 2.29mm, inside diameter 1.27mm, wall thickness 0.51mm, 99.95+%
Cadmium, wire reel, 0.2m, diameter 0.125mm, as drawn, 99.9%
Cadmium, foil, 25x25mm, thickness 0.5mm, as rolled, 99.999%
Cadmium, foil, 50x50mm, thickness 0.25mm, as rolled, 99.9%
Cadmium, wire reel, 0.1m, diameter 0.70mm, as drawn, 99.99+%
Cadmium, foil, 25x25mm, thickness 0.25mm, as rolled, 99.9%
Cadmium, foil, 30x100mm, thickness 0.5mm, as rolled, 99.999%
Cadmium, foil, 50x100mm, thickness 1.0mm, as rolled, 99.999%
Cadmium, wire reel, 1m, diameter 0.70mm, as drawn, 99.99+%