Ultrastructural studies of photoreceptor cell degeneration with organophosphate and its regeneration in Cyprinus carpio communis L

Organophosphates are highly neurotoxic to aquatic fauna if they enter the water bodies as runoff, thus affecting the nervous system of the fishes. The present study was undertaken to investigate the vision changes, especially on the photoreceptor layer of the retina, of Cyprinus carpio communis L. when exposed to monocrotophos, an organophosphate. Fish were exposed to three sub-lethal concentrations of LC_50, i.e. 0.038 ppm (1/10 LC₅₀), 0.062 ppm (1/6 LC₅₀), and 0.126 ppm (1/3 LC₅₀), to observe the changes in the photoreceptor cells at the behavioral, histopathological and ultrastructural levels. Further, acetylcholinesterase activity was also evaluated. Behavioral changes, such as long resting period, inactivity, increase in air gulps and decrease in opercular and fin movements, were observed. A semi-quantitative analysis of the histological sections showed shrinkage in retinal layers at 0.038 ppm concentration of monocrotophos. At 0.062 ppm, the disappearance of the outer nuclear layer was observed and at the highest concentration of 0.126 ppm, damage in all retinal layers involving necrosis of the outer segment of the photoreceptor cells was observed. Further, at the ultrastructural level, detachment of photoreceptor cells and damage in the inner and outer segments of the photoreceptors were observed in an increasing dose-dependent manner. A reduction in the acetylcholinesterase level was observed in the treated groups. The treated fish were then transferred to toxicant-free water for 60 days to study self-regeneration, but no regeneration was observed in photoreceptor cells of the fish retina. This study shows that exposure to of monocrotophos effectively damages and disturbs the functioning of photoreceptor cells of retina of C. carpio communis L., thus affecting its vision.