Ophthalmology Research, Novartis Institutes for Biomedical Research, Cambridge, Massachusetts, United States.
Global Discovery Chemistry, Novartis Institutes for Biomedical Research, Cambridge, Massachusetts, United States.
Invest Ophthalmol Vis Sci. 2018 Apr 1;59(5):1704-1716. doi: 10.1167/iovs.18-23772.
The nitric oxide/soluble guanylate cyclase/protein kinase G (NO/sGC/PKG) is known to be involved in the regulation of intraocular pressure (IOP) and may be dysregulated in glaucoma. The purpose is to demonstrate that the sGC activator MGV354 lowers IOP in a monkey model of glaucoma and could be considered as a possible new clinical drug candidate.
Changes to cGMP were assessed in primary human trabecular meshwork (hNTM) cells and binding studies were conducted using human sGC full-length protein. Ocular safety tolerability, exposure, and efficacy studies were conducted in rabbit and monkey models following topical ocular dosing of MGV354.
sGC was highly expressed in the human and cynomolgus monkey outflow pathways. MGV354 had a 7-fold greater Bmax to oxidized sGC compared to that of reduced sGC and generated an 8- to 10-fold greater cGMP compared to that of a reduced condition in hTM cells. A single topical ocular dose with MGV354 caused a significant dose-dependent reduction of 20% to 40% (versus vehicle), lasting up to 6 hours in pigmented rabbits and 24 hours postdose in a cynomolgus monkey model of glaucoma. The MGV354-induced IOP lowering was sustained up to 7 days following once-daily dosing in a monkey model of glaucoma and was greater in magnitude compared to Travatan (travoprost)-induced IOP reduction. Mild to moderate ocular hyperemia was the main adverse effect noted.
MGV354 represents a novel class of sGC activators that can lower IOP in preclinical models of glaucoma. The potential for sGC activators to be used as effective IOP-lowering drugs in glaucoma patients could be further determined in clinical studies.
一氧化氮/可溶性鸟苷酸环化酶/蛋白激酶 G(NO/sGC/PKG)被认为参与了眼压(IOP)的调节,并且在青光眼患者中可能失调。本研究旨在证明 sGC 激活剂 MGV354 可降低青光眼猴模型中的 IOP,并可被视为一种潜在的新型临床候选药物。
在原代人眼小梁细胞(hNTM)中评估 cGMP 的变化,并使用全长人 sGC 进行结合研究。在兔和猴模型中进行了眼部给药 MGV354 的眼部安全性、耐受性、暴露量和疗效研究。
sGC 在人眼和食蟹猴流出道中高表达。MGV354 对氧化 sGC 的 Bmax 比还原 sGC 高 7 倍,在 hTM 细胞中产生的 cGMP 比还原条件高 8 至 10 倍。单次眼部给药 MGV354 可显著降低 20%至 40%(与载体相比)的眼压,在色素兔中持续 6 小时,在青光眼食蟹猴模型中持续 24 小时。在青光眼猴模型中,单次每日给药后,MGV354 诱导的眼压降低可持续长达 7 天,并且比 Travatan(曲伏前列素)诱导的眼压降低幅度更大。轻度至中度眼充血是观察到的主要不良反应。
MGV354 代表了一类新型的 sGC 激活剂,可降低青光眼的临床前模型中的 IOP。sGC 激活剂作为青光眼患者有效降低 IOP 的药物的潜力可能在临床研究中进一步确定。
