Caspase-8介导的炎症而非凋亡导致了青光眼视网膜神经节细胞的死亡和视觉功能的丧失。

Yinjie Guo, Bhupender Verma, Maleeka Shrestha, Ann Marshak-Rothstein, Meredith Gregory-Ksander
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引用次数: 0

摘要

背景--青光眼是一种复杂的多因素疾病,其中凋亡和炎症是两种关键的致病机制。然而,在视网膜神经节细胞(RGC)轴突变性和死亡的过程中,凋亡与炎症的相对作用尚不十分清楚。在青光眼中,Caspase-8与RGC凋亡以及神经胶质激活和神经炎症有关。为了解开这两种途径的联系并确定caspase-8介导的炎症和/或凋亡在多大程度上导致了RGCs的死亡,我们使用了caspase-8 D387A突变体小鼠(Casp8 DA/DA),其中自动裂解位点的点突变阻止了caspase-8介导的凋亡,但没有阻止caspase-8介导的炎症。方法--通过鞘内注射磁性微珠来升高野生型小鼠、Fas 缺陷型小鼠和 Caspase8 DA/DA 小鼠的眼压(IOP)。通过反弹眼压计监测眼压。注射微珠两周后,收集视网膜进行小胶质细胞活化分析。微珠注射五周后,分别通过视力计反射(OMR)和模式视网膜电图(pERG)评估视敏度和RGC功能。对视网膜和视神经进行处理,以确定RGC和轴突的数量。微珠注射后两周和五周,通过 qPCR 评估坏死标记物 RIPK3 的表达。结果--野生型、Fas lpr 和 Casp8 DA/DA 小鼠的眼压升高与生理盐水对照组相似。在野生型小鼠中观察到视力和 pERG 明显下降,这与 RGCs 和轴突的明显损失有关,但在 Fas lpr 小鼠中没有观察到。Casp8 DA/DA小鼠的视敏度和pERG振幅显著降低,RGC和轴突的损失与野生型小鼠相似。免疫染色显示,注射微珠的野生型小鼠和 Casp8 DA/DA 突变体小鼠视网膜中活化的小胶质细胞数量相同,P2ry12 和 IB4 双阳性。结论-- 我们的研究结果表明,在微珠诱导的青光眼小鼠模型中,Caspase-8介导的体外凋亡并没有参与RGCs的死亡,这表明Caspase-8介导的炎症而非凋亡是青光眼进展的驱动力。综上所述,这些结果确定了 caspase-8 介导的炎症途径是青光眼神经保护的潜在靶点。
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Caspase-8-mediated inflammation but not apoptosis drives death of retinal ganglion cells and loss of visual function in glaucomaa.

Background-: Glaucoma is a complex multifactorial disease where apoptosis and inflammation represent two key pathogenic mechanisms. However, the relative contribution of apoptosis versus inflammation in axon degeneration and death of retinal ganglion cells (RGCs) is not well understood. In glaucoma, caspase-8 is linked to RGC apoptosis, as well as glial activation and neuroinflammation. To uncouple these two pathways and determine the extent to which caspase-8-mediated inflammation and/or apoptosis contributes to the death of RGCs, we used the caspase-8 D387A mutant mouse (Casp8 DA/DA ) in which a point mutation in the auto-cleavage site blocks caspase-8-mediated apoptosis but does not block caspase-8-mediated inflammation.

Methods-: Intracameral injection of magnetic microbeads was used to elevate the intraocular pressure (IOP) in wild-type, Fas deficient Faslpr, and Casp8 DA/DA mice. IOP was monitored by rebound tonometry. Two weeks post microbead injection, retinas were collected for microglia activation analysis. Five weeks post microbead injection, visual acuity and RGC function were assessed by optometer reflex (OMR) and pattern electroretinogram (pERG), respectively. Retina and optic nerves were processed for RGC and axon quantification. Two- and five-weeks post microbead injection, expression of the necrosis marker, RIPK3, was assessed by qPCR.

Results-: Wild-type, Faslpr, and Casp8 DA/DA mice showed similar IOP elevation as compared to saline controls. A significant reduction in both visual acuity and pERG that correlated with a significant loss of RGCs and axons was observed in wild-type but not in Faslpr mice. The Casp8 DA/DA mice displayed a significant reduction in visual acuity and pERG amplitude and loss of RGCs and axons similar to that in wild-type mice. Immunostaining revealed equal numbers of activated microglia, double positive for P2ry12 and IB4, in the retinas from microbead-injected wild-type and Casp8 DA/DA mutant mice. qPCR analysis revealed no induction of RIPK3 in wild-type or Casp8 DA/DA mice at two- or five-weeks post microbead injection.

Conclusions-: Our results demonstrate that caspase-8-mediated extrinsic apoptosis is not involved in the death of RGCs in the microbead-induced mouse model of glaucoma implicating caspase-8-mediated inflammation, but not apoptosis, as the driving force in glaucoma progression. Taken together, these results identify the caspase-8-mediated inflammatory pathway as a potential target for neuroprotection in glaucoma.

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