Responses of free radical metabolism to air exposure or salinity stress, in crabs (Callinectes danae and C. ornatus) with different estuarine distributions

The swimming crabs Callinectes danae and C omatus are found in bays and estuaries, but C danae is more abundant in lower salinities, while C mauls remains restricted to areas of higher salinity. Experimental crabs of both species were submitted to: air exposure (Ae, 3 h), reimmersion in 33%. (control) sea water (SW) (Ri, 1 h) following air exposure; hyposaline (Ho, 10%. for 2 h) or hypersaline (He, 40%. for 2 h) SW, then return to control 33%. SW (RHo and RHe, for 1 h). Hemolymph was sampled for osmolality and chloride determinations. Activity of antioxidant enzymes [glutathione peroxidase (GPX), catalase, glutathione-S-transferase] and levels of carbonyl proteins and lipid peroxidation (TBARS) were evaluated in hepatopancreas, muscle, anterior and posterior gills. In Ho groups, hemolymph concentrations were lower in both species, compared to He groups. C danae displayed higher control activities of GPX (hepatopancreas and muscle) and catalase (all four tissues) than C. ornatus. C. omatus presented increased activities of catalase and GPX in Ac, Ri, and He groups. Increased TBARS was seen in C omatus tissues (He group). The more euryhaline species displayed higher constitutive activities of antioxidant enzymes, and the less euryhaline species exhibited activation of these enzymes when exposed to air or hyper-salinity. (C) 2011 Elsevier Inc. All rights reserved.