Journal of Ophthalmology (Jan 2021)

Expression of Otx Genes in Müller Cells Using an In Vitro Experimental Model of Retinal Hypoxia

  • Claudio Azzolini,
  • Simone Donati,
  • Giovanni Micheloni,
  • Vittoria Moretti,
  • Roberto Valli,
  • Francesco Acquati,
  • Lucy Costantino,
  • Fulvio Ferrara,
  • Davide Borroni,
  • Elias Premi,
  • Francesco Testa,
  • Francesca Simonelli,
  • Giovanni Porta

DOI
https://doi.org/10.1155/2021/6265553
Journal volume & issue
Vol. 2021

Abstract

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Introduction. Müller glial cells typically activate to react to hypoxic tissue damage in several retinal diseases. We evaluated the in vitro response to a hypoxia-mimicking stimulus on the expression of a set of genes, known to contribute to eye morphogenesis and cell differentiation. Materials and Methods. A MIO-M1 Müller cell line was cultured in a hypoxia-mimicking environment by the addition of cobalt chloride to the culture medium, followed by a recovery time in which we mimic restoration from the hypoxic insult. The HIF-1α protein and VEGF-A gene expression were quantified to verify the induction of a hypoxia-like state. Results. Among the genes under study, we did not observe any difference in the expression levels of Otx1 and Otx2 during treatment; conversely, Otx1 was overexpressed during recovery steps. The VEGF-A gene was strongly upregulated at both the CoCl2 and recovery time points. The transactivated isoform (TA) of the TP73 gene showed an overexpression in long-term exposure to the hypoxic stimulus with a further increase after recovery. Discussion. Our molecular analysis is able to describe the activation of a set of genes, never before described, that can drive the response to a hypoxia-like status. The improved comprehension of these cellular events will be useful for designing new therapeutical approaches for retinal pathologies.