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Introduction: Glaucoma, a principal cause of irreversible vision loss, is characterized by intricate optic neuropathy involving significant immune mechanisms. This study seeks to elucidate the molecular and immune complexities of glaucoma, aiming to improve our understanding of its pathogenesis. Methods: Gene expression profiles from glaucoma patients were analyzed to identify immune-related differentially expressed genes (DEGs). Techniques used were weighted gene co-expression network analysis (WGCNA) for network building, machine learning algorithms for biomarker identification, establishment of subclusters related to immune reactions, and single-sample gene set enrichment analysis (ssGSEA) to explore hub genes' relationships with immune cell infiltration and immune pathway activation. Validation was performed using an NMDA-induced excitotoxicity model and RT-qPCR for hub gene expression measurement. Results: The study identified 409 DEGs differentiating healthy individuals from glaucoma patients, highlighting the immune response's significance in disease progression. Immune cell infiltration analysis revealed elevated levels of activated dendritic cells, natural killer cells, monocytes, and immature dendritic cells in glaucoma samples. Three hub genes, CD40LG, TEK, and MDK, were validated as potential diagnostic biomarkers for high-risk glaucoma patients, showing increased expression in the NMDA-induced excitotoxicity model. Discussion: The findings propose the three identified immune-related genes (IRGs) as novel diagnostic markers for glaucoma, offering new insights into the disease's pathogenesis and potential therapeutic targets. The strong correlation between these IRGs and immune responses underscores the intricate role of immunity in glaucoma, suggesting a shift in the approach to its diagnosis and treatment.
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Purpose: To investigate the role of G-protein-coupled bile acid receptor-1, Gpbar1 (TGR5) in the pathogenesis of Vogt-Koyanagi-Harada (VKH) disease.Methods: The mRNA level of TGR5, iNOS, Arg1, CD16, and CD206 in macrophages was assayed by real-time PCR. ELISA was used to detect the production of cytokines in cell culture supernatants. The frequencies of CD4+IFN-γ+ and CD4+ IL-17+ T cells were tested by flow cytometry.Results: A decreased expression of TGR5 in M1 macrophages was observed in active VKH patients as compared with normal controls. TGR5 stimulation of M1 macrophages with INT-777 caused a shift of the inflammatory M1 toward the anti-inflammatory M2 macrophage subtype. TGR5 activation of macrophages co-cultured with CD4+ T cells inhibited Th1 and Th17 polarization, as well as the release of IFN-γ and IL-17 in the culture supernatant.Conclusion: Our results show that a decreased TGR5 expression might contribute to the pathogenesis of VKH disease.
