Histophysiology of polysaccharide and lipid reserves in various tissues of Littorina littorea exposed to sublethal concentrations of cadmium

Abstract

1. Sublethal exposure to cadmium causes glycogen depletion in connective tissues of the mantle, kidney folds, and digestive gland-gonad complex. Glycogen levels are lower at higher environmental concentrations of metal and at longer exposure times. 2. Simultaneously with glycogen level reduction in reserve tissues, higher levels of glycogen than in control specimens have been detected in the digestive gland of cadmium exposed winkles. Phosphoglucomutase activity has been detected in kidney, connective tissues, and intestine, but not in digestive tubules. This suggests glycogen mobilisation through digestive tubule epithelia. 3. Phosphoglucomutase activity in gills is associated with glycogen level increases in blood vessels and in distal portion of gill lamellae after proximal epithelium disruption. 4. Lipid contents of the studied organs are only decreased when glycogen levels are largely reduced. Lipase activity has been demonstrated in digestive tubule, kidney and gill epithelia, but not in connective tissues. It is concluded that lipidic store is intracellular while the polysaccharidic one is organismic. 5. Sublethal concentrations of cadmium do not cause impairment of phosphoglucomutase and lipase activities: enzymatic activity is well correlated with reserve consumption, demonstrable activity being lost only after substrate (glycogen or lipid) depletion.