Ocular hypertension impairs axonal transport in the optic nerve head leading to neurodegeneration in a novel Cre-inducible mouse model of myocilin glaucoma.

Balasankara Reddy Kaipa, Ramesh Kasetti, Linya Li, Cameron Millar, William Cho, Dorota Skowronska-Krawczyk, Prabhavathi Maddineni, Yogapriya Sundaresan, gulab zode
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Abstract

Background: Degeneration of optic nerve (ON) axons and loss of retinal ganglion cells (RGCs) are the pathological hallmarks of Primary Open Angle Glaucoma (POAG). Elevation of intraocular pressure (IOP) due to dysfunction of trabecular meshwork (TM) is known to induce neurodegeneration. However, the early pathological events of glaucomatous neurodegeneration are poorly understood due to lack of robust and faithful mouse model that replicates all features of human POAG. Here, we report the generation and characterization of a novel Cre-inducible transgenic mouse model of myocilin (MYOC), the leading known genetic cause of POAG. Using this model, we further explore early pathological events of glaucomatous neurodegeneration due to chronic IOP elevation. Methods: We generated a Cre-inducible transgenic mouse model expressing DsRed-tagged Y437H mutant of human myocilin (Tg.CreMYOCY437H). A single intravitreal injection of helper adenovirus (HAd) 5 expressing empty cassette or Cre was performed in adult Tg.CreMYOCY437H mice, and glaucoma phenotypes including IOP, outflow facility, structural and functional loss of RGCs, ON degeneration, gliosis, and axonal transport deficits were examined at various stages of IOP elevation. Results: An intravitreal injection of HAd5-Cre led to selective MYOC expression in the TM at the level similar to endogenous Myoc. Expression of mutant MYOC induced biochemical and ultrastructural changes in TM leading to reduced outflow facility and significant IOP elevation. Notably, sustained IOP elevation led to significant functional and structural loss of RGCs and progressive ON degeneration. Glaucomatous neurodegeneration was associated with activation of astrocytes and neurodegenerative changes in the optic nerve head (ONH) region. Remarkably, chronic IOP elevation blocked anterograde axonal transport at the ONH prior to axonal degeneration and RGC loss. Interestingly, impaired axonal transport was associated with loss of cytoskeleton proteins including microtubules and neurofilaments resulting into accumulation of mitochondria in the ONH and neuronal dysfunction. Conclusions: Our studies indicate that Cre-inducible Tg.CreMYOCY437H mice recapitulates all glaucoma phenotypes observed in POAG patients. Importantly, sustained IOP elevation impairs axonal transport at ONH leading to glaucomatous neurodegeneration.
眼压过高会损害视神经头的轴突运输,从而导致新型Cre诱导型肌球蛋白青光眼小鼠模型的神经变性。
背景:视神经轴突(ON)退化和视网膜神经节细胞(RGC)丧失是原发性开角型青光眼(POAG)的病理特征。众所周知,小梁网(TM)功能障碍导致的眼压升高会诱发神经变性。然而,由于缺乏能复制人类 POAG 所有特征的可靠小鼠模型,人们对青光眼性神经变性的早期病理事件知之甚少。在这里,我们报告了一种新型的肌球蛋白(MYOC)Cre诱导转基因小鼠模型的产生和特征描述,肌球蛋白是POAG的主要已知遗传病因。利用该模型,我们进一步探索了由于慢性眼压升高导致的青光眼神经变性的早期病理事件:方法:我们生成了一种表达 DsRed 标记的人肌球蛋白 Y437H 突变体(Tg.CreMYOCY437H)的 Cre 诱导型转基因小鼠模型。在成年Tg.CreMYOCY437H小鼠体内单次静脉注射表达空盒子或Cre的辅助腺病毒(HAd)5,在眼压升高的不同阶段检测青光眼表型,包括眼压、流出设施、RGCs结构和功能丧失、ON变性、胶质细胞病变和轴突运输障碍。结果玻璃体内注射HAd5-Cre导致MYOC在TM中选择性表达,表达水平与内源性Myoc相似。突变型 MYOC 的表达诱导 TM 发生生化和超微结构变化,导致流出设施减少和眼压显著升高。值得注意的是,持续的眼压升高会导致 RGC 在功能和结构上的显著丧失以及渐进的视网膜退化。青光眼性神经变性与视神经头(ONH)区域的星形胶质细胞激活和神经变性变化有关。值得注意的是,在轴突变性和RGC丧失之前,慢性眼压升高会阻断ONH的轴突前向运输。有趣的是,轴突运输受损与细胞骨架蛋白(包括微管和神经丝)的丧失有关,导致线粒体在ONH积聚和神经元功能障碍:我们的研究表明,Cre诱导的Tg.CreMYOCY437H小鼠再现了在POAG患者身上观察到的所有青光眼表型。重要的是,持续的眼压升高会损害 ONH 的轴突运输,导致青光眼性神经变性。
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