Characterization and ontogeny of PGE2 and PGF2α receptors on the retinal vasculature of the pig

The vasoconstrictor effects of PGE₂ and PGF_2α are less pronounced on retinal vessels of the newborn than of the adult pig. We tested the hypothesis that the decreased vasomotor response to these prostaglandins might be due to relatively fewer receptors and/or different receptor subtypes (in the case of PGE₂) on retinal vessels of the newborn animal. Binding studies using [³H]PGE₂ and [³H]PGF_2α revealed that PGE₂ (EP) and PGF_2α (FP) receptor densities in retinal microvessel membrane preparations from newborn animals were approximately 25% of those found in vessels from the adult. The K_d for PGF_2α did not differ; however, the K_d for PGE₂ was less in newborn than in adult vessels. Competition binding studies using AH 6809 (EP₁ antagonist), butaprost (EP₂ agonist), M&B 28,767 (EP₃ agonist), and AH 23848B (EP₄ antagonist) suggested that the retinal vessels of the newborn contained approximately equal number of EP₁ and EP₂ receptor subtypes whereas the main receptor subtype in the adult vessels was EP₁. In addition, PGE₂ and butaprost produced comparable increases in adenosine 3′,5′-cyclic monophosphate synthesis in newborn and adult vessels. PGE₂, 17-phenyl trinor PGE₂ (EP₁agonist) and PGF_2α caused a 2.5 to 3-fold greater increase in inositol1,4,5-triphosphate (IP₃) formation in adult than in newborn preparations. It is concluded that fewer PGF_2α receptors and an associated decrease in receptor-coupled IP₃ formation in the retinal vessels of the newborn could lead to weaker vasoconstrictor effects of PGF_2α on retinal vessels of the newborn than of adult pigs; fewer EP₁ receptors (associated with vasoconstriction) and a relatively greater proportion of EP₂ receptors (associated with vasodilation) might be responsible for the reduced retinal vasoconstrictor effects of PGE₂ in the newborn.