Gasdermin E mediates photoreceptor damage by all-trans-retinal in the mouse retina

Binxiang Cai, Chunyan Liao, Danxue He, Jingmeng Chen, Jiahuai Han, Jiaying Lu, Kaiqi Qin, Wenxu Liang, Xiaoling Wu, Zuguo Liu, Yalin Wu

Journal:JOURNAL OF BIOLOGICAL CHEMISTRY

IF:5.16

DOI:10.1016/j.jbc.2021.101553

PMID:34973334

Published:2021-12-29

research field:分子生物学细胞生物学神经退行性疾病眼科学

Abstract

The breakdown of all-trans-retinal (atRAL) clearance is closely associated with photoreceptor cell death in dry age-related macular degeneration (AMD) and autosomal recessive Stargardt's disease (STGD1), but its mechanisms remain elusive. Here, we demonstrate that activation of gasdermin E (GSDME) but not gasdermin D promotes atRAL-induced photoreceptor damage by activating pyroptosis and aggravating apoptosis through a mitochondria-mediated caspase-3-dependent signaling pathway. Activation of c-Jun N-terminal kinase was identified as one of the major causes of mitochondrial membrane rupture in atRAL-loaded photoreceptor cells, resulting in the release of cytochrome c from mitochondria to the cytosol, where it stimulated caspase-3 activation required for cleavage of GSDME. Aggregation of the N-terminal fragment of GSDME in the mitochondria revealed that GSDME was likely to penetrate mitochondrial membranes in photoreceptor cells after atRAL exposure. ABC (subfamily A, member 4) and all-trans-retinol dehydrogenase 8 are two key proteins responsible for clearing atRAL in the retina. Abca4−/−Rdh8−/− mice exhibit serious defects in atRAL clearance upon light exposure and serve as an acute model for dry AMD and STGD1. We found that N-terminal fragment of GSDME was distinctly localized in the photoreceptor outer nuclear layer of light-exposed Abca4−/−Rdh8−/− mice. Of note, degeneration and caspase-3 activation in photoreceptors were significantly alleviated in Abca4−/−Rdh8−/−Gsdme−/− mice after exposure to light. The results of this study indicate that GSDME is a common causative factor of photoreceptor pyroptosis and apoptosis arising from atRAL overload, suggesting that repressing GSDME may represent a potential treatment of photoreceptor atrophy in dry AMD and STGD1.

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