Prostaglandin D synthase in microvessels from the cat cerebral cortex

Microvessels, a mixture composed predominantly of small arterioles and capillaries (7–80μ diameter), were isolated from the rat cerebral cortex by selective nylon sieving and glass bead elutriation. The morphology and purity of the microvessel and cerebral cortex filtrate (virtually free of vascular contamination) were monitored by light microscopy and by the activity of several enzymes: γ-glutamyl transpeptidase, GSH-transferase, prostacyclin synthase and PGD synthase. Prostacyclin and PGD synthesizing activities as well as γ-glutamyl transpeptidase activity were localized to the microvessels of the rat cerebral cortex whereas GSH-S-transferase was restricted to the non-vascular filtrate function. The characteristics of the PGD synthase were similar to those of the purified enzyme previously described for the rat brain. The microvessel (MV) PGD synthase was localized to the cytosol fraction of the microvessels and did not require reduced glutathione for activity. The enzyme was inhibitd by pre-incubation with p-hydroxymercuribenzoate (lmM) or N-ethylmaleimide (lmM). The MV PGD synthase saturated at 15–20μM PGH₂, exhibited an apparent K_M of 9.6μM, and a pH optimum of 8.0–8.1. These findings suggest roles for both prostacyclin and PGD synthesis by the rat cerebral vasculature in the autoregulation of cerebral blood flow and/or function. These studies also indicate that the major source of PGI₂ and PGD₂ synthesis by rat brain homogenates is the microvasculature.