Abstract
It is of increasing interest to observe the precise localization of cyclic 3′, 5′-nucleotide phosphodiesterase (PDEase) activity in rod outer segments at the ultrastructural level. The cytochemical method of PDEase localization at the ultrastructural level was developed by Florendo et al. However, there were two major difficulties in the use of snake venom as an exogenous 5′-Nucleotidase (5′-Nase): 1) the marked ultrastructural damage due to snake venom, and 2) the inadequate penetration of exogenous 5′-Nase into tissues. Therefore, two improvements for the demonstration of PDEase activity were carried out by the case of: 1) a purified 5′-Nase as exogenous 5′-Nase for a better preservation of cell morphology, and 2) 40μm sections made with the use of a freezing microtome for a better penetration of 5′-Nase into the tissues.
PDEase activity using purified 5′-Nase was observed along the disc in the rod outer segment, and no retinal detachment was observed between the outer segments and pigment epithelium, the ultrastructure being excellently preserved, as compared with the use of snake venom. By applying this improved method to freeze-substitution technique, the catalytic site of PDEase was localized on the cytoplasmic surface of the disc membranes. This new technique would be useful in detecting the precise localization of PDEase activity.
