Biochemical correlates of dissolved mercury uptake by the oyster Ostrea edulis

From previous work, the equilibrium concentration factor for dissolved mercury in the digestive gland of Ostrea edulis Linnaeus was found to be three to four times higher than that in the gills. In the present study, an analysis of soluble protein revealed values of 49.3±14.2 mg g wet tissue^-1 for the digestive gland and 0.7 ±0.1 mg g wet tissue^-1 for the gills. Starvation significantly reduces the soluble protein level of the digestive gland to 31.1±6.4 mg g^-1 and that of the gills to below the limit of detection. These results suggest that the difference in concentration factors between the gills and digestive gland may be based on a quantitative difference in macromolecular binding sites. However, the uptake of dissolved mercury over a period of 48 h was considerably greater in the gills, so that although the soluble protein content of the tissue may influence the final concentration factor, it does not appear to affect the rate at which this equilibrium is achieved. A more detailed investigation of the mechanism of dissolved mercury uptake by oyster gills has been carried out using isolated tissues. The process is inhibited by 5mM 2–4 dinitrophenol, by the absence of a readily metabolizable substrate (dextrose) in the uptake medium, and by 30mM K⁺. The effect of K⁺ necessitated further investigation with a specific inhibitor of K⁺ transport. Strophanthin G (ouabain), at a concentration of 0.01 mM, caused a significant increase in mercury uptake.