Publication Details

Category Text Publication
Reference Category Journals
DOI 10.1016/S0166-445X(01)00171-0
Title (Primary) Protein synthesis costs could account for the tissue specific effects of sub-lethal copper on protein synthesis in rainbow trout (Oncorhynchus mykiss)
Author Smith, R.W.; Blaney, S.C.; Dowling, K.; Sturm, A.; Jonsson, M.; Houlihan, D.
Source Titel Aquatic Toxicology
Year 2001
Department OEC; COE
Volume 53
Issue 3-4
Page From 265
Page To 277
Language englisch
Keywords Sub-lethal Cu; Protein synthesis rate; Tissue specificity; Oxygen consumption; Protein synthesis costs
Abstract This study investigates protein synthesis, following exposure to sub-lethal Cu, in rainbow trout in vivo and in vitro. The investigation has two aims: to determine if perturbations in protein synthesis, compared with other physiological changes, are a biomarker of Cu pollution and to evaluate the most productive role of cellular models in ecotoxicology. Protein synthesis rates were measured by labelling with 3H-phenylalanine. In vivo this was applied by a single (i.p.) injection and in vitro by bathing the cells in 3H-phenylalanine labelled culture media. The effects in vivo were tissue specific. After 3 weeks' exposure to 0.7 μM Cu only skin protein synthesis was reduced. Gills and liver from the same fish were unaffected. This reduction in skin protein synthesis appears to be more sensitive than some other biomarkers reported in the literature. However, Cu concentrations greater by orders of magnitude were required to reproduce this reduction in protein synthesis in skin cell explants (200 and 400 μM). Hepatocyte protein synthesis was unaffected by 10, 20 and 40 μM Cu and a separate investigation has also shown that 25 and 75 μM Cu does not effect protein synthesis in cultured gill cells. Oxygen consumption rates were also measured in vitro by monitoring the decline in O2 partial pressure. The Cu concentrations given above resulted in a decline in O2 consumption rates in the respective cell types. By measuring protein synthesis and O2 consumption after treatment with a protein synthesis inhibitor (cycloheximide), the costs of protein synthesis were also determined. Synthesis costs in hepatocytes are close to the theoretical minimum and are only marginally affected by Cu. Gill cell synthesis costs are also minimal and are unaffected. In skin explants, the reduction in protein synthesis was accompanied by greatly increased synthesis costs. This in vitro result offers a hypothesis as to the tissue-specific effects in vivo; i.e. the energetic demand of protein synthesis may determine tissue sensitivity or susceptibility. Cell or tissue types with high protein synthesis rates are able to avoid detrimental increases in the synthesis cost when exposed to Cu. In tissues with a low protein synthesis rate any further reduction is more likely to incur a potentially damaging increase in protein synthesis costs. Thus, whilst in vitro models may have little practical use in environmental monitoring, they may be best used as a mechanistic tool in understanding susceptibility or tolerance to sub-lethal Cu.
Persistent UFZ Identifier https://www.ufz.de/index.php?en=20939&ufzPublicationIdentifier=6830
Smith, R.W., Blaney, S.C., Dowling, K., Sturm, A., Jonsson, M., Houlihan, D. (2001):
Protein synthesis costs could account for the tissue specific effects of sub-lethal copper on protein synthesis in rainbow trout (Oncorhynchus mykiss)
Aquat. Toxicol. 53 (3-4), 265 - 277 10.1016/S0166-445X(01)00171-0