Activation of GSDME by all-trans-retinal increases sensitivity to photoreceptor ferroptosis
Bo Yang, Kunhuan Yang, Yuling Chen, Ruitong Xi, Jiahuai Han, Shiying Li, Jingmeng Chen, Yalin Wu

TL;DR
A study shows that all-trans-retinal activates GSDME, leading to photoreceptor cell death in retinal diseases, and suggests potential treatments.
Contribution
The study identifies GSDME-mediated ferroptosis as a key mechanism in retinal degeneration caused by all-trans-retinal accumulation.
Findings
GSDME activation by atRAL triggers photoreceptor ferroptosis and retinal atrophy through mitochondrial damage and oxidative stress.
Deleting Gsdme or using MitoTEMPO reduces atRAL-induced ferroptosis and retinal degeneration in mice.
GSDME elimination and MitoTEMPO treatment both inhibit mitoROS-induced oxidative stress to prevent retinal damage.
Abstract
Impaired clearance of all-trans-retinal (atRAL) due to visual cycle dysfunction contributes to photoreceptor atrophy, a key pathological hallmark of Stargardt disease type 1 (STGD1) and dry age-related macular degeneration (AMD). Prior studies have shown that light-induced atRAL accumulation promotes ferroptosis and activates gasdermin E (GSDME) in retinal photoreceptors of Abca4-/-Rdh8-/- mice, a model for STGD1 and dry AMD that exhibits visual cycle disorders. However, the role of GSDME in photoreceptor ferroptosis remains unclear. In this study, we revealed that GSDME activation by atRAL triggered photoreceptor ferroptosis and retinal atrophy via mitochondrial damage and oxidative stress. Knocking out GSDME significantly attenuated light-induced photoreceptor ferroptosis and retinal degeneration in Abca4-/-Rdh8-/- mice. Moreover, deleting the Gsdme gene in photoreceptor cells…
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Taxonomy
TopicsFerroptosis and cancer prognosis · Retinal Diseases and Treatments · Retinal Development and Disorders
