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Complex fibroblast response to glucocorticoids may underlie variability of clinical efficacy in the vocal folds

Ryosuke Nakamura, Shigeyuki Mukudai, Renjie Bing, Michael J. Garabedian, Ryan C. Branski

2020Scientific Reports21 citationsDOIOpen Access PDF

Abstract

Similar to the hypertrophic scar and keloids, the efficacy of glucorticoids (GC) for vocal fold injury is highly variable. We previously reported dexamethasone enhanced the pro-fibrotic effects of transforming growth factor (TGF)-β as a potential mechanism for inconsistent clinical outcomes. In the current study, we sought to determine the mechanism(s) whereby GCs influence the fibrotic response and mechanisms underlying these effects with an emphasis on TGF-β and nuclear receptor subfamily 4 group A member 1 (NR4A1) signaling. Human VF fibroblasts (HVOX) were treated with three commonly-employed GCs+ /-TGF-β1. Phosphorylation of the glucocorticoid receptor (GR:NR3C1) and activation of NR4A1 was analyzed by western blotting. Genes involved in the fibrotic response, including ACTA2, TGFBR1, and TGFBR2 were analyzed by qPCR. RNA-seq was performed to identify global changes in gene expression induced by dexamethasone. GCs enhanced phosphorylation of GR at Ser211 and TGF-β-induced ACTA2 expression. Dexamethasone upregulated TGFBR1, and TGFBR2 in the presence of TGF-β1 and increased active NR4A1. RNA-seq results confirmed numerous pathways, including TGF-β signaling, affected by dexamethasone. Synergistic pro-fibrotic effects of TGF-β were observed across GCs and appeared to be mediated, at least partially, via upregulation of TGF-β receptors. Dexamethasone exhibited diverse regulation of gene expression including NR4A1 upregulation consistent with the anti-fibrotic potential of GCs.

Topics & Concepts

Downregulation and upregulationGlucocorticoid receptorDexamethasoneTransforming growth factorGlucocorticoidReceptorEndocrinologySignal transductionGene expressionPhosphorylationInternal medicineBlotCancer researchBiologyChemistryGeneMedicineCell biologyBiochemistryCancer-related gene regulationCancer-related molecular mechanisms researchTGF-β signaling in diseases