Silicone Oil Affects Fibrosis of Human Trabecular Meshwork Cells by Upregulating Ferroptosis Through a ROS/NOX4/Smad3 Axis.
Wang Jing, Zhang Yang, Zhong Huimin, Zhang Yumeng, Han Ruiqi, Guo Yanzhi, Huang Shouyue, Yu Huan, Zhong Yisheng
AI Summary
Silicone oil causes trabecular meshwork cell fibrosis and ferroptosis via a ROS/NOX4/Smad3 pathway. This identifies potential targets to prevent silicone oil-induced glaucoma.
Abstract
Purpose
Silicone oil (SiO) is commonly employed as an intravitreal tamponade to manage complex retinal detachments associated with proliferative diabetic retinopathy, trauma, or severe myopia and to facilitate retinal reattachment. Nevertheless, SiO usage is linked to several complications, notably secondary glaucoma, which constitutes a significant proportion of adverse effects. This study investigated the impact of SiO on trabecular meshwork cells, given their pivotal role in regulating aqueous humor outflow.
Methods
Human trabecular meshwork cells (HTMCs) were co-cultured with SiO. The impact on proliferation, fibrosis-related markers, and ferroptosis levels on these cells was evaluated using 5-ethynyl-2'-deoxyuridine (EdU), western blot, and immunofluorescence assays. Further gene knockdown experiments with NOX4 and Smad3 were conducted to elucidate the underlying mechanisms of SiO-induced changes.
Results
SiO intervention inhibited HTMC proliferation, upregulated fibrosis-related markers, and elevated ferroptosis levels. Gene knockdown experiments revealed that SiO-induced ferroptosis and reactive oxygen species (ROS) increase were mediated through NOX4 upregulation and Smad3 activation.
Conclusions
These findings highlight the significance of ferroptosis and the ROS/NOX4/Smad3 axis in the mechanism of SiO-induced intraocular pressure elevation. The insights gained from this study identify potential therapeutic targets to mitigate postoperative complications associated with SiO tamponade in ophthalmic surgery.
MeSH Terms
Shields Classification
Key Concepts4
Silicone oil (SiO) intervention inhibited human trabecular meshwork cell (HTMC) proliferation, upregulated fibrosis-related markers, and elevated ferroptosis levels in HTMCs co-cultured with SiO.
Silicone oil (SiO)-induced ferroptosis and reactive oxygen species (ROS) increase in human trabecular meshwork cells (HTMCs) were mediated through NOX4 upregulation and Smad3 activation, as revealed by gene knockdown experiments.
The ROS/NOX4/Smad3 axis and ferroptosis are significant mechanisms in silicone oil (SiO)-induced intraocular pressure elevation.
Silicone oil (SiO) usage is linked to secondary glaucoma, which constitutes a significant proportion of adverse effects.
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