Department of Ophthalmology, Columbia University, New York, New York 10032, USA.
Invest Ophthalmol Vis Sci. 2013 Jan 7;54(1):85-95. doi: 10.1167/iovs.12-10050.
Excessive accumulation of lipofuscin is associated with pathogenesis of atrophic age-related macular degeneration (AMD) and Stargardt disease. Pharmacologic inhibition of the retinol-induced interaction of retinol-binding protein 4 (RBP4) with transthyretin (TTR) in the serum may decrease the uptake of serum retinol to the retina and reduce formation of lipofuscin bisretinoids. We evaluated in vitro and in vivo properties of the new nonretinoid RBP4 antagonist, A1120.
RBP4 binding potency, ability to antagonize RBP4-TTR interaction, and compound specificity were analyzed for A1120 and for the prototypic RBP4 antagonist fenretinide. A1120 ability to inhibit RPE65-mediated isomerohydrolase activity was assessed in the RPE microsomes. The in vivo effect of A1120 administration on serum RBP4, visual cycle retinoids, lipofuscin bisretinoids, and retinal visual function was evaluated using a combination of biochemical and electrophysiologic techniques.
In comparison to fenretinide, A1120 did not act as a RARα agonist, while exhibiting superior in vitro potency in RBP4 binding and RBP4-TTR interaction assays. A1120 did not inhibit isomerohydrolase activity in the RPE microsomes. A1120 dosing in mice induced 75% reduction in serum RBP4, which correlated with reduction in visual cycle retinoids and ocular levels of lipofuscin fluorophores. A1120 dosing did not induce changes in kinetics of dark adaptation.
A1120 significantly reduces accumulation of lipofuscin bisretinoids in the Abca4(-/-) animal model. This activity correlates with reduction in serum RBP4 and visual cycle retinoids confirming the mechanism of action for A1120. In contrast to fenretinide, A1120 does not act as a RARα agonist indicating a more favorable safety profile for this nonretinoid compound.
脂褐素的过度积累与萎缩性年龄相关性黄斑变性(AMD)和斯塔加特病的发病机制有关。抑制血清中视黄醇诱导的视黄醇结合蛋白 4(RBP4)与转甲状腺素(TTR)的相互作用,可能会减少血清视黄醇向视网膜的摄取,并减少脂褐素双视黄醇的形成。我们评估了新型非视黄醇 RBP4 拮抗剂 A1120 的体外和体内特性。
分析了 A1120 和原型 RBP4 拮抗剂芬维 A 对 RBP4 结合能力、拮抗 RBP4-TTR 相互作用的能力以及化合物特异性。在 RPE 微粒体中评估 A1120 抑制 RPE65 介导的异构酶水解活性的能力。使用生化和电生理技术相结合的方法,评估了 A1120 给药对血清 RBP4、视觉循环视黄醇、脂褐素双视黄醇和视网膜视觉功能的体内影响。
与芬维 A 相比,A1120 不作为 RARα 激动剂,而在 RBP4 结合和 RBP4-TTR 相互作用测定中表现出优越的体外效力。A1120 不会抑制 RPE 微粒体中的异构酶水解活性。在小鼠中给予 A1120 可使血清 RBP4 降低 75%,这与视觉循环视黄醇和眼内脂褐素荧光团水平降低相关。A1120 给药不会引起暗适应动力学的变化。
A1120 可显著减少 Abca4(-/-)动物模型中脂褐素双视黄醇的积累。这种活性与血清 RBP4 和视觉循环视黄醇的减少相关,证实了 A1120 的作用机制。与芬维 A 不同,A1120 不作为 RARα 激动剂,表明这种非视黄醇化合物具有更有利的安全性特征。
