Role of complement and complement membrane attack complex in laser-induced choroidal neovascularization

PS Bora, JH Sohn, J Cruz, P Jha… - The Journal of …, 2005 - journals.aai.org
PS Bora, JH Sohn, J Cruz, P Jha, H Nishihori, Y Wang, S Kaliappan, HJ Kaplan, NS Bora
The Journal of Immunology, 2005journals.aai.org
Choroidal neovascularization (CNV), or choroidal angiogenesis, is the hallmark of age-
related macular degeneration and a leading cause of visual loss after age 55. The
pathogenesis of new choroidal vessel formation is poorly understood. Although
inflammation has been implicated in the development of CNV, the role of complement in
CNV has not been explored experimentally. A reliable way to produce CNV in animals is to
rupture Bruch's membrane with laser photocoagulation. A murine model of laser-induced …
Abstract
Choroidal neovascularization (CNV), or choroidal angiogenesis, is the hallmark of age-related macular degeneration and a leading cause of visual loss after age 55. The pathogenesis of new choroidal vessel formation is poorly understood. Although inflammation has been implicated in the development of CNV, the role of complement in CNV has not been explored experimentally. A reliable way to produce CNV in animals is to rupture Bruch’s membrane with laser photocoagulation. A murine model of laser-induced CNV in C57BL/6 mice revealed the deposition of C3 and membrane attack complex (MAC) in the neovascular complex. CNV was inhibited by complement depletion using cobra venom factor and did not develop in C3−/− mice. Anti-murine C6 Abs in C57BL/6 mice inhibited MAC formation and also resulted in the inhibition of CNV. Vascular endothelial growth factor, TGF-β2, and β-fibroblast growth factor were elevated in C57BL/6 mice after laser-induced CNV; complement depletion resulted in a marked reduction in the level of these angiogenic factors. Thus, activation of complement, specifically the formation of MAC, is essential for the development of laser-induced choroidal angiogenesis in mice. It is possible that a similar mechanism may be involved in the pathophysiology of other angiogenesis essential diseases.
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