The present study focused on the mi

The present study focused on the midgut gland, kidney and foot, rather than the whole soft tissue mass (Giraud-Billoud et al., 2011) and the concentrations of uric acid, allantoin and GSH, and the activity of SOD and CAT were determined during the activity–estivation cycle. The obtained results also support the idea that uric acid acts as a reserve antioxidant (Giraud-Billoud et al., 2011), since its concentrations increased significantly during estivation in the three studied organs. However, since some of the other defences behaved differently, and the behavior also differed between organs, the emergent picture is that P. canaliculata utilizes a combination of the first and second of Storey’s strategies (Storey, 1996), as will be discussed below.
Most significant changes in uric acid occurred in the kidney, in which the increase during estivation was more than 30-fold, remained high 20min after arousal, and diminished significantly 24h after arousal. Uric acid decrease was not significant in either the midgut gland or the foot after arousal. However, allantoin levels showed an increase 24h after arousal in both the kidney and the foot. These changes in allantoin should be interpreted as non- enzymatic oxidation of uric acid, and hence as an antioxidant action of this purine, since urate oxidase activity is low or undetectable during estivation in the three studied organs and only a partial recovery occurs in the midgut gland and the foot after arousal (Giraud-Billoud et al., 2011).
The increase in uric acid levels in the kidney of P. canaliculata is remarkable, not only because of its extent, but because the kidney is devoid of any specialized urate storage tissue as the midgut gland (Vega et al., 2007; Giraud-Billoud et al., 2008). An increase of uric acid in the kidney during estivation has also been reported in other ampullariid gastropods, namely Pomacea lineata (Little, 1968) and Pila globosa (Chaturvedi and Agarwal, 1981). Intracellular concretions containing uric acid have been reported in the renal epithelium of the ampullariid gastropod Marisa cornuarietis (Andrews, 1976) and have been interpreted as a form of uric acid secretion into the urine. However, since uric acid is not excreted by P . canaliculata (V ega et al., 2007), even though it is found in the circulation (Cueto et al., 2011), renal concretions are more likely the result of uric acid resorption from the filtrate, which passes down from the pericardium to the renal chamber in ampullariids (Andrews, 1976). Accordingly, both the size and density of the concretions increased markedly during estivation (Fig.2) and may be regarded as the morphological expression of the large uric acid accumulation in the kidney at that time. From these concretions uric acid may be solubilized and oxidized to allantoin after arousal.