传统房水流出通路中内源性双刺激激活的一氧化氮生成用于精准青光眼治疗。

Endogenous dual stimuli-activated NO generation in the conventional outflow pathway for precision glaucoma therapy.

机构信息

State Key Laboratory of Natural Medicines and Jiangsu Key Laboratory of Drug Discovery for Metabolic Diseases, Center of Advanced Pharmaceuticals and Biomaterials, China Pharmaceutical University, Nanjing, 210009, PR China.

Department of Ophthalmology & Visual Science, Eye & ENT Hospital, Shanghai Medical College, Fudan University, Shanghai, 200031, China; NHC Key Laboratory of Myopia; Chinese Academy of Medical Sciences, and Shanghai Key Laboratory of Visual Impairment and Restoration (Fudan University), Shanghai, 200031, China; State Key Laboratory of Medical Neurobiology and MOE Frontiers Center for Brain Science, Institutes of Brain Science, Fudan University, Shanghai, 200032, China.

出版信息

Biomaterials. 2021 Oct;277:121074. doi: 10.1016/j.biomaterials.2021.121074. Epub 2021 Aug 17.

DOI:10.1016/j.biomaterials.2021.121074

PMID:34482086

Abstract

High intraocular pressure (IOP) has been regarded as a predominant risk factor for glaucoma. Nitric oxide (NO) is shown to lower IOP, but the magnitude and duration of IOP reduction are not satisfying due to the poor cornea penetration of NO drugs and limited NO generation in the trabecular meshwork (TM)/Schlemm's canal (SC) area. Herein, we introduce deep cornea penetrating biodegradable hollow mesoporous organosilica (HOS) nanocapsules for the efficient co-delivery of hydrophobic JS-K (J) and hydrophilic l-Arginine (L). The resulting HOS-JL can be reduced and oxidized by the ascorbic acid (AA) and catalysis of endothelial nitric oxide synthase (eNOS) in the TM/SC microenvironment to release NO for inducing appreciable IOP reduction in various glaucoma mouse models. In addition to developing an endogenous stimuli-responsive NO nanotherapeutic, this study is also expected to establish a versatile, non-invasive, and efficacious treatment paradigm for precision glaucoma therapy.

摘要

高眼压（IOP）一直被认为是青光眼的主要危险因素。一氧化氮（NO）已被证明可以降低 IOP，但由于 NO 药物对角膜的穿透性差以及小梁网（TM）/施莱姆氏管（SC）区域中 NO 的生成有限，因此降低 IOP 的幅度和持续时间并不令人满意。在这里，我们介绍了深层角膜穿透性可生物降解的中空介孔有机硅（HOS）纳米胶囊，用于高效共递送疏水性 JS-K（J）和亲水性 l-精氨酸（L）。所得的 HOS-JL 可以被 TM/SC 微环境中的抗坏血酸（AA）和内皮型一氧化氮合酶（eNOS）还原和氧化，以释放 NO，从而在各种青光眼小鼠模型中引起可观的 IOP 降低。除了开发内源性刺激响应性 NO 纳米治疗药物外，本研究还期望为精准青光眼治疗建立一种通用，非侵入性和有效的治疗范例。

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传统房水流出通路中内源性双刺激激活的一氧化氮生成用于精准青光眼治疗。

Endogenous dual stimuli-activated NO generation in the conventional outflow pathway for precision glaucoma therapy.

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