Endothelial-specific postnatal deletion of Nos3 preserves intraocular pressure homeostasis via macrophage recruitment and NOS2 upregulation

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Abstract

Polymorphisms in Nos3 increases risk for glaucoma, the leading cause of irreversible blindness worldwide. A key modifiable risk factor for glaucoma is intraocular pressure (IOP), which is regulated by nitric oxide (NO), a product of nitric oxide synthase-3 (Nos3) in Schlemm’s canal of the conventional outflow pathway. We studied the effects of a conditional, endothelial-specific postnatal deletion of Nos3 (Endo-SclCre-ERT;Nos3flox/flox) on tissues of the outflow pathway. We observed that Cre-ERT expression spontaneously and gradually increased with time in vascular endothelia including Schlemm’s canal, beginning at P10, with complete Nos3 deletion occurring around P90. Unlike the reduced outflow resistance in global Nos3 knockout mice, outflow resistance and IOP in Endo-SclCre-ERT;Nos3flox/flox mice were normal. Coinciding with Nos3 deletion, we observed recruitment of macrophages to, and induction of both ELAM-1 and NOS2 expression by endothelia in the distal portion of the outflow pathway, which increased vessel diameter. These adjustments reduced outflow resistance to maintain IOP in these Endo-SclCre-ERT;Nos3flox/flox mice. Selective inhibition of iNOS by 1400W resulted in narrowing of distal vessels and IOP elevation. Together, results emphasize the pliability of the outflow system, the importance of NO signaling in IOP control and implicates an important role for macrophages in IOP homeostasis.

Authors

Ruth A. Kelly, Megan S. Kuhn, Ester Reina-Torres, Revathi Balasubramanian, Kristin M. Perkumas, Guorong Li, Takamune Takahashi, Simon W.M. John, Michael H. Elliott, Darryl R. Overby, W. Daniel Stamer