Loss of BAP31 Is Detrimentally Aging Photoreceptors Through ER Stress-Mediated Retinal Degeneration
Fei Gao, Yuqiang Zheng, Tianyi Wang, Mingqi Zhang, Yuanlong An, Zhuoshi Wang, Bing Wang

TL;DR
This study shows that loss of BAP31 causes retinal degeneration through ER stress, leading to photoreceptor damage and vision loss.
Contribution
The study is the first to directly link BAP31 deficiency to retinal degeneration via ER stress activation in a mouse model.
Findings
Conditional knockdown of BAP31 in mice leads to retinal degeneration resembling retinitis pigmentosa.
BAP31 deficiency activates ER stress markers and downregulates key phototransduction genes.
ER stress and glial activation are prominent in BAP31-deficient retinas, contributing to retinal damage.
Abstract
Retinal degeneration (RD) is an intractable ophthalmic disorder with no effective treatments, and its pathogenesis is complex, involving multiple genes. Endoplasmic reticulum (ER) stress and neuronal apoptosis are key factors that drive neurodegeneration in retinal degeneration. B cell receptor-associated protein 31 (BAP31) is a transmembrane protein predominantly found in the ER, which plays an important role in regulating ER stress and apoptosis. To date, no studies have directly confirmed the association between BAP31 and retinal degenerative diseases. However, considering that ER dysfunction is a key trigger for retinal photoreceptor cell damage and that BAP31 acts as a core regulator of ER function, we hypothesize that BAP31 may be involved in the development of retinal degeneration by regulating ER homeostasis. Our study aimed to investigate the pathogenic mechanisms of BAP31 in…
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Taxonomy
TopicsRetinal Development and Disorders · Endoplasmic Reticulum Stress and Disease · Retinal Diseases and Treatments
