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Glutathione (GSH) was initially identified and characterized for its redox properties andlater for its contributions to detoxification reactions. Over the past decade, however, the essentialcontributions of glutathione to cellular iron metabolism have come more and more into focus. GSH isindispensable in mitochondrial iron-sulfur (FeS) cluster biosynthesis, primarily by co-ligating FeSclusters as a cofactor of the CGFS-type (class II) glutaredoxins (Grxs). GSH is required for the exportof the yet to be defined FeS precursor from the mitochondria to the cytosol. In the cytosol, it is anessential cofactor, again of the multi-domain CGFS-type Grxs, master players in cellular iron and FeStrafficking. In this review, we summarize the recent advances and progress in this field. The mosturgent open questions are discussed, such as the role of GSH in the export of FeS precursors frommitochondria, the physiological roles of the CGFS-type Grx interactions with BolA-like proteins andthe cluster transfer between Grxs and recipient proteins
Nucleoredoxin Plays a Key Role in the Maintenance of Retinal Pigmented Epithelium Differentiation
(2022)
Nucleoredoxin (Nrx) belongs to the Thioredoxin protein family and functions in redox-mediated signal transduction. It contains the dithiol active site motif Cys-Pro-Pro-Cys and interacts and regulates different proteins in distinct cellular pathways. Nrx was shown to be catalytically active in the insulin assay and recent findings indicate that Nrx functions, in fact, as oxidase. Here, we have analyzed Nrx in the mammalian retina exposed to (perinatal) hypoxia-ischemia/reoxygenation, combining ex vivo and in vitro models. Our data show that Nrx regulates cell differentiation, which is important to (i) increase the number of glial cells and (ii) replenish neurons that are lost following the hypoxic insult. Nrx is essential to maintain cell morphology. These regulatory changes are related to VEGF but do not seem to be linked to the Wnt/β-catenin pathway, which is not affected by Nrx knock-down. In conclusion, our results strongly suggest that hypoxia-ischemia could lead to alterations in the organization of the retina, related to changes in RPE cell differentiation. Nrx may play an essential role in the maintenance of the RPE cell differentiation state via the regulation of VEGF release.