Aims/Purpose: To study the changes on the metallome and transcriptome of a cellular model of the retinal pigment epithelium (RPE) during its in vitro degeneration after 4 months in culture.Methods: Primary cultures of human fetal RPE cells were established in P12 transwell inserts and cultured for 4 months. Cell pigmentation and barrier function was followed up using optical microscopy and measurement of the transepithelial electrical resistance (TEER). Samples were collected at 21, 91 and 133 days in culture and analysed for gene expression, metal homeostasis of Ca, Na, P, Mg and P, and extracellular deposit formation through RNA sequencing (RNA‐Seq), elemental mass spectrometry (ICP‐MS) and immunocytochemistry assays, respectively.Results: RPE cells formed a differentiated monolayer at 21 days in culture, expressing specific genes and proteins of RPE and giving increasing TEER values. However, after 133 days in culture, loss of tight junction proteins (i.e. CLDN19 and BEST1) and electrical resistance was seen, together with loss of pigmentation and increase of apolipoprotein E deposition in the extracellular space. Gene expression analysis showed an enrichment on apoptotic processes, biomolecule phosphorylation, and signs of epithelial‐to‐mesenchymal transition (EMT). Degeneration of RPE cells concurred with an increase of Na and P content in the cytosol and decrease of Mg, while a decrease of Mg, P and Cu was determined in the insoluble fraction of cells. Time‐dependent changes of metals were accompanied with the alteration of metal transporters and antioxidant enzymes using metals as cofactors.Conclusions: Degeneration of RPE cells in culture was characterized by depigmentation of cells, improper barrier function, downregulation of antioxidant protection, loss of epithelial phenotype, and changes on the levels of Na, P, Mg and Cu, as well as of the expression of their homeostatic proteins.
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