Abstract
Aberrant ocular angiogenesis can underpin vision loss in leading causes of blindness, including neovascular age-related macular degeneration and proliferative diabetic retinopathy. Current pharmacological interventions require repeated invasive administrations, may lack efficacy and are associated with poor patient compliance and tachyphylaxis. Vitamin D has de novo anti-angiogenic properties. Here, our aim was to validate the ocular anti-angiogenic activity of biologically active vitamin D, calcitriol, and selected vitamin D analogue, 22-oxacalcitriol. Calcitriol induced a significant reduction in ex vivo mouse choroidal fragment sprouting. Viability studies in a human RPE cell line suggested non-calcemic vitamin D analogues including 22-oxacalcitriol have less off-target anti-proliferative activity compared to calcitriol and other analogues. Thereafter, the anti-angiogenic activity of 22-oxacalcitriol was demonstrated in an ex vivo mouse choroidal fragment sprouting assay. In zebrafish larvae, 22-oxacalcitriol was found to be anti-angiogenic, inducing a dose-dependent reduction in choriocapillaris development. Subcutaneously administered calcitriol failed to attenuate mouse retinal vasculature development. However, calcitriol and 22-oxacalcitriol administered intraperitoneally, significantly attenuated lesion volume in the laser-induced choroidal neovascularisation mouse model. In summary, calcitriol and 22-oxacalcitriol attenuate ex vivo and in vivo choroidal vasculature angiogenesis. Therefore, vitamin D may have potential as an interventional treatment for ophthalmic neovascular indications.
Highlights
Pathological neovascularisation of ocular blood vessels can promote vision loss in leading causes of blindness including neovascular age-related macular degeneration and proliferative diabetic retinopathy
With ocular selective anti-angiogenic activity previously identified in zebrafish larvae, cord formation was investigated in human www.oncotarget.com retinal-derived microvascular endothelial cells (HREC)
HREC cells were seeded in a matrix and cultured with 10 μM calcitriol for 16 h
Summary
Pathological neovascularisation of ocular blood vessels can promote vision loss in leading causes of blindness including neovascular age-related macular degeneration (nAMD) and proliferative diabetic retinopathy. Rapid vision loss in nAMD is driven by pathological choroidal vasculature angiogenesis This pathological vasculature can be deficient in tight junctions, leak plasma or blood, cause scarring, project through the Bruch’s membrane, cause retinal pigmented epithelium (RPE) detachment and disrupt normal perfusion of the retina [5,6,7]. Severe vision loss is a consequence of macular oedema and sprouting of poorly formed retinal vessels into the vitreous [8]. This retinal neovascularisation can result in haemorrhaging and retinal detachment [9]
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