Mh. Grosell et al., CU UPTAKE AND TURNOVER IN BOTH CU-ACCLIMATED AND NON-ACCLIMATED RAINBOW-TROUT (ONCORHYNCHUS-MYKISS), Aquatic toxicology, 38(4), 1997, pp. 257-276
Cu-64 accumulation and total Cu concentration were measured in plasma,
red blood cells, gills, liver, kidney and bile during 65 h of exposur
e to Cu-64 at 20 mu g of Cu per liter, in non acclimated and Cu acclim
ated (28 days of preexposure) rainbow trout (Oncorhynchus mykiss) fitt
ed with a dorsal aortic catheter. By measuring both Cu-64 accumulation
and total Cu concentrations, we were able to analyse the ongoing upta
ke and turnover of ambient Cu, independent of any Cu already present i
n the fish. Plasma accounted for at least 90% of the Cu-64 labelled Cu
present in the blood and Cu-acclimation clearly involves changes in c
opper accumulation kinetics in the plasma. The acclimated fish showed
a 65% reduced Cu-64 accumulation after 65 h and an increased turnover
of Cu in the plasma compared to the non-acclimated fish. Total Cu in t
he plasma increased by 59% after 3 h of exposure in the non-acclimated
fish but was recovered during the following 24 h and remained at cont
rol levels throughout 65 h; even after 28 days the acclimated fish sho
wed no increase in total plasma [Cu]. Apparently Cu acclimation involv
es an increased clearing of plasma Cu, primarily to the liver, stimula
ted during the first 12 h of exposure. Acclimation did not have an una
mbiguous effect on branchial Cu uptake and differences in branchial up
take could not explain the reduced accumulation in the plasma. The rap
idly exchangeable Cu pools were 54% in the gills and 33% in the liver,
suggesting a considerable hepatic Cu elimination. No increase in the
total [Cu] in the kidney was observed, but the kidney did show substan
tial Cu-64 accumulation and thus also a potential renal Cu excretion.
(C) 1997 Elsevier Science B.V.