2023
DOI: 10.1186/s12974-023-02855-1
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ATP-P2X7R-mediated microglia senescence aggravates retinal ganglion cell injury in chronic ocular hypertension

Miao Wei,
Guowei Zhang,
Zeyu Huang
et al.

Abstract: Background Dysfunction of microglia during aging affects normal neuronal function and results in the occurrence of neurodegenerative diseases. Retinal microglial senescence attributes to retinal ganglion cell (RGC) death in glaucoma. This study aims to examine the role of ATP-P2X7R in the mediation of microglia senescence and glaucoma progression. Methods Forty-eight participants were enrolled, including 24 patients with primary open-angle glaucoma… Show more

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Cited by 5 publications
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“…There is strong evidence linking purinergic signalling with microglia activation in glaucoma, and while evidence from animal models supports the early increase in ATP release from numerous retinal cell types in response to direct IOP stress and inflammatory activation, the consequences of shifting metabolic preferences on these signalling pathways has yet to be explored. Increased levels of ATP in the aqueous humor of older adults and POAG patients (96) and in ocular tissues in experimental glaucoma and patients (97,98), suggest that ATP release as a signalling molecule continues despite metabolic dysfunction. While direct evidence of glial metabolic change in glaucoma is currently limited, the likelihood of uncovering further changes is high given recent findings in other neurodegenerative diseases.…”
Section: Glial Metabolic Changes In Glaucomamentioning
confidence: 99%
“…There is strong evidence linking purinergic signalling with microglia activation in glaucoma, and while evidence from animal models supports the early increase in ATP release from numerous retinal cell types in response to direct IOP stress and inflammatory activation, the consequences of shifting metabolic preferences on these signalling pathways has yet to be explored. Increased levels of ATP in the aqueous humor of older adults and POAG patients (96) and in ocular tissues in experimental glaucoma and patients (97,98), suggest that ATP release as a signalling molecule continues despite metabolic dysfunction. While direct evidence of glial metabolic change in glaucoma is currently limited, the likelihood of uncovering further changes is high given recent findings in other neurodegenerative diseases.…”
Section: Glial Metabolic Changes In Glaucomamentioning
confidence: 99%