Abstract
Compromised pumping function of the corneal endothelium, due to loss of endothelial cells, results in corneal edema and subsequent visual problems. Clinically and experimentally, oxidative stress may cause corneal endothelial decompensation after phacoemulsification. Additionally, in vitro and animal studies have demonstrated the protective effects of intraoperative infusion of ascorbic acid (AA). Here, we established a paraquat-induced cell damage model, in which paraquat induced reactive oxygen species (ROS) production and apoptosis in the B4G12 and ARPE-19 cell lines. We demonstrate that oxidative stress triggered autophagic flux blockage in corneal endothelial cells and that addition of AA ameliorated such oxidative damage. We also demonstrate the downregulation of Akt phosphorylation in response to oxidative stress. Pretreatment with ascorbic acid reduced the downregulation of Akt phosphorylation, while inhibition of the PI3K/Akt pathway attenuated the protective effects of AA. Further, we establish an in vivo rabbit model of corneal endothelial damage, in which an intracameral infusion of paraquat caused corneal opacity. Administration of AA via topical application increased its concentration in the corneal stroma and reduced oxidative stress in the corneal endothelium, thereby promoting corneal clarity. Our findings indicate a perioperative strategy of topical AA administration to prevent oxidative stress-induced damage, particularly for those with vulnerable corneal endothelia.
Highlights
Phacoemulsification is the most commonly practiced surgery for the treatment of cataracts.Complications of phacoemulsification that compromise visual prognosis remain a concern.These include cystoid macular edema [1], infectious endophthalmitis [2], retinal detachment [3], and corneal edema due to loss of human corneal endothelial cells (HCECs) [4]
We aim to investigate the protective effect of ascorbic acid against oxidative stress in HCEC
In a rabbit model, we demonstrate that topical administration of ascorbic acid ameliorates corneal endothelial damage caused by oxidative stress through increasing the concentration of ascorbic acid in the corneal stroma
Summary
Phacoemulsification is the most commonly practiced surgery for the treatment of cataracts.Complications of phacoemulsification that compromise visual prognosis remain a concern.These include cystoid macular edema [1], infectious endophthalmitis [2], retinal detachment [3], and corneal edema due to loss of human corneal endothelial cells (HCECs) [4]. Phacoemulsification is the most commonly practiced surgery for the treatment of cataracts. Complications of phacoemulsification that compromise visual prognosis remain a concern. These include cystoid macular edema [1], infectious endophthalmitis [2], retinal detachment [3], and corneal edema due to loss of human corneal endothelial cells (HCECs) [4]. The overall rate of HCEC loss after cataract surgery is 2.5% annually [5], while rates of 5.1% [6] to 12.1% [7] have been reported among patients with low HCEC density. HCECs play a cardinal role in the regulation of stromal hydration and corneal transparency [8]. HCECs have been found to exhibit limited proliferative
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