posted on 2024-08-20, 20:31authored byCunrui Li, Mingchao Zhu, Songqi Liu, Jiaming Zhang, Hui Ye, Chen Zhang, Duorui Ji, Haoyang Tang, Yihua Zhang, Jianbing Wu, Zhangjian Huang
Based on the synergistic therapeutic effect of nitric
oxide (NO)
and Rho-associated protein kinase (ROCK) inhibitors on glaucoma, a
series of NO-donating Netarsudil derivatives were designed, synthesized,
and their activities in vitro and in vivo were evaluated. Among them,
(S)-10e released an appropriate amount
of NO in aqueous humor in vitro and displayed potent ROCK inhibition.
Topical administration of (S)-10e significantly
lowered intraocular pressure in an acute ocular hypertension rabbit
model and protected retinal ganglion cells in a magnetic microbead
occlusion mouse model. A metabolism investigation revealed that (S)-10e released 7a, a metabolite
after NO releasing, and 13, an active metabolite of (S)-Netarsudil, in rabbit eyes. Notably, introducing an NO
donor moiety attenuated ROCK inhibition-induced ocular irritation
in an sGC-independent manner, suggesting that the attenuated conjunctival
hyperemia effect of (S)-10e is related
to the NO-induced protein S-nitrosation of phosphodiesterase 3A (PDE3A).
Overall, (S)-10e is a promising candidate
for glaucoma treatment.