Prostanoid EP4 receptor stimulation produces ocular hypotension by a mechanism that does not appear to involve uveoscleral outflow.

PURPOSE: As part of a systematic elucidation of the pharmacology of prostaglandin's (PG) effects on intraocular pressure in the monkey, the prototypical selective prostanoid EP(4) receptor agonist (3,7-dithia PGE(1)) was examined. It was found to be highly efficacious in nonhuman primates, and its mechanism of ocular hypotensive activity was investigated. METHODS: Intraocular pressure (IOP) was measured by pneumatonometry in conscious monkeys restrained in custom-designed chairs. All other animal experiments were performed in animals sedated with ketamine or anesthetized with ketamine/diazepam and given drug or vehicle for various lengths of time. Aqueous flow was determined by fluorophotometry. Total outflow facility was measured by the two-level, constant-pressure method and by 2-minute tonography in both normotensive and hypertensive monkey eyes. Uveoscleral outflow was measured by perfusing the anterior chamber with FITC-labeled dextran for 30 minutes at a fixed IOP of approximately 15 mm Hg. Isometric responses to drugs were measured in longitudinal and radial preparations of monkey and human isolated ciliary smooth muscle specimens. RESULTS: The selective EP(4) receptor agonist 3,7-dithia PGE(1) and an isopropyl ester prodrug thereof reduced IOP in monkeys. A single dose of 3,7-dithia PGE(1) isopropyl ester, at a 0.01% or 0.1% dose, decreased IOP in the glaucomatous monkey in the range of 40% to 50%. Studies on total outflow facility by the two-level, constant-pressure perfusion method and tonography indicated that EP(4) receptor stimulation facilitated aqueous humor outflow facility. No effect on aqueous flow was apparent. In contrast to all PGs and prostamides studied to date, 3,7-dithia PGE(1) exerted no effect on uveoscleral outflow measured directly. Moreover, it did not relax longitudinal or radial preparations of isolated human or monkey ciliary muscles. CONCLUSIONS: The EP(4) receptor agonist 3,7-dithia PGE(1) is a highly efficacious IOP-lowering drug in monkeys. It has no effect on uveoscleral outflow but does increase total outflow facility, which accounts for a substantial proportion of the ocular hypotensive activity.

Bimatoprost and prostaglandin F(2 alpha) selectively stimulate intracellular calcium signaling in different cat iris sphincter cells.

Bimatoprost is a synthetic analog of prostaglandin F(2 alpha) ethanolamide (prostamide F(2 alpha)), and shares a pharmacological profile consistent with that of the prostamides. Like prostaglandin F(2 alpha) carboxylic acid, bimatoprost potently lowers intraocular pressure in dogs, primates and humans. In order to distinguish its mechanism of action from prostaglandin F(2 alpha), fluorescence confocal microscopy was used to examine the effects of bimatoprost, prostaglandin F(2 alpha) and 17-phenyl prostaglandin F(2 alpha) on calcium signaling in resident cells of digested cat iris sphincter, a tissue which exhibits contractile responses to both agonists. Constant superfusion conditions obviated effective conversion of bimatoprost. Serial challenge with 100 nM bimatoprost and prostaglandin F(2 alpha) consistently evoked responses in different cells within the same tissue preparation, whereas prostaglandin F(2 alpha) and 17-phenyl prostaglandin F(2 alpha) elicited signaling responses in the same cells. Bimatoprost-sensitive cells were consistently re-stimulated with bimatoprost only, and prostaglandin F(2 alpha) sensitive cells could only be re-stimulated with prostaglandin F(2 alpha). The selective stimulation of different cells in the same cat iris sphincter preparation by bimatoprost and prostaglandin F(2 alpha), along with the complete absence of observed instances in which the same cells respond to both agonists, strongly suggests the involvement of distinct receptors for prostaglandin F(2 alpha) and bimatoprost. Further, prostaglandin F(2 alpha) but not bimatoprost potently stimulated calcium signaling in isolated human embryonic kidney cells stably transfected with the feline- and human-prostaglandin F(2 alpha) FP-receptor and in human dermal fibroblast cells, and only prostaglandin F(2 alpha) competed with radioligand binding in HEK-feFP cells. These studies provide further evidence for the existence of a bimatoprost-sensitive receptor that is distinct from any of the known prostaglandin receptor types.

Vascular activities of prostaglandins and selective prostanoid receptor agonists in human retinal microvessels.

Prostanoid analogs have recently been introduced into clinical use for the management of increased intraocular pressure (IOP). This class of compounds is known to exert effects on vascular components and some endogenous parent prostaglandins have been shown to alter regional ocular blood flow and exhibit significant vasoactive properties in isolated ocular blood vessels, so the possibility exists that prostanoids could affect the ocular microcirculation either by absorption into the systemic circulation or by direct localized activity on the retinal microvasculature. Thus, the aim of this study was to examine systematically the effects of a broad variety of agonists that exhibit preferential activity at EP(1)-, EP(2)-, EP(3)-, FP-, DP-, IP-, and TP-prostanoid receptor sites on microvessel caliber in the microvasculature associated with human retinal tissues grafted into the hamster cheek pouch membrane. The selective DP-receptor agonist, BW245C and the selective TP-receptor agonist, U-46619, were the only compounds tested that exhibited significant vasoactive effects relative to baseline resting diameters in retinal microvessels. A dose-dependent increase in arteriolar caliber was elicited by BW245C over a concentration range of 10(-8)-10(-4)M at the tested 5- and 10-min timepoints. U-46619 evoked a sharp decrease in microvessel diameter within a 10(-7)-10(-4)M gamut, with the dose-response profiles at 5- and 10-min timepoints remaining essentially parallel over the tested range of concentrations. In contrast to the vasoconstriction induced by U-46619, retinal microvessel calibers were not markedly affected by AGN 192093, a thromboxane-like agonist with additional unique properties. No significant changes in human retinal arteriolar diameters relative to baseline were observed in response to a broad panel of parent and derived compounds known to be selective for EP-, FP- and IP-prostanoid receptors.