Role of adrenergic receptors in vascular remodelling of the rat choroid.

1. Choroidal blood vessels, located between the sclera and retina, constitute the principle source of blood flow to ocular structures. The choroid is innervated by vasoconstrictor sympathetic and vasodilator parasympathetic nerves. 2. We have shown previously that sympathetic denervation for 6 weeks leads to significant increases in choroidal thickness, percentage of choroid occupied by vascular lumina, and numbers of choroidal venules, large arterioles and outer retinal capillaries. Sympathetic deafferentation produces similar increases, indicating that loss of sympathetic nerve activity is responsible for increased vascularity after sympathectomy. Thus, sympathetic neurotransmission normally may be important in suppressing vascular proliferation in the adult rodent eye. 3. The aim of the present study was to determine whether sympathetic nerves act by way of adrenergic receptors to maintain normal choroidal vascular integrity. 4. The alpha-adrenoceptor antagonist, phentolamine (1 mg kg(-1) day(-1)), the beta-receptor antagonist, propranolol (1 mg kg(-1) day(-1)), or saline vehicle was infused for 3 weeks using subcutaneously implanted osmotic minipumps. 5. In phentolamine treated rats, no significant changes were noted relative to saline infused controls. However, propranolol treatment resulted in increases in choroidal thickness, vascular luminal area, and numbers of large choroidal venules and both small and large arterioles, approximating the remodelling seen after chronic sympathectomy. 6. We conclude that sympathetic nerves play a role in maintaining normal choroidal vascular architecture through actions mediated primarily by beta-adrenoceptors.