A comparison of the fine-structural localization of nucleoside phosphatase activity in large intracranial blood vessels and the thoracic aorta of rabbits

Summary

Nucleoside phosphatase activity was localized in rabbit intracranial blood vessels, namely cerebral and basilar arteries and veins, and in the thoracic aorta using the electron microscope. In the intracranial vessels the same ultrastructural localization of reaction product was found when ATP or ADP was used as substrate in a modified Wachstein-Meisel procedure using Mg ions as the enzyme activator. No reaction product was seen when using AMP or β-glycero-phosphate as substrates, or in controls without any substrate. Reaction product was sparsely localized within cell membrane invaginations on all sides of endothelial and, to a lesser extent, of smooth muscle cells. Pinocytotic vesicles occasionally contained reaction product. The greatest amount of lead phosphate (reaction product) precipitate was found in the basement membranes of both endothelial and smooth muscle cells, particularly intense in the former case. A diffuse precipitate of reaction product was observed in the cytoplasm of adventitial fibroblasts.

The thoracic aorta demonstrated the same localization with the following exceptions: generally greater concentrations of reaction product were found using ATP as substrate, than in the corresponding intracranial vessels; interendothelial gaps and the cell membrane invaginations of these gaps were completely filled with reaction product; there was no specific localization of reaction product in the basement membranes; and reaction product could also be demonstrated using AMP and glycero-phosphate as substrates. Acid phosphatase activity was localized in lysosomes in endothelial and smooth muscle cells from both types of vessels. The differences in enzyme localization between aorta and intracranial vessels were discussed, particularly in light of the differences in nucleoside phosphatase activity and transport functions between brain and somatic capillaries.