Abstract
Aryl hydrocarbon receptors (AHRs), a class of ligand-dependent nuclear receptors that regulate cellular responses by inducing the expression of various target genes in response to external signals, are implicated in maintaining retinal tissue homeostasis. Previous studies have shown that the regulation of AHR-induced gene expression requires transcriptional co-regulators. However, it is not yet clear how chromatin remodelers, histone methyltransferases and coactivators interact during AHR-mediated gene expression in human retinal cells. In this study, we reveal that the histone methyltransferase MLL1 and the coactivator FLII are involved in AHR-mediated gene expression in retinal pigment epithelial cells. 2,3,7,8-tetrachlorodibenzo-p-dioxin (TCDD) significantly increased the expression of CYP1A1, CYP1B1 and AHRR in ARPE-19 cells, whereas FLII or MLL1 depletion significantly reduced the expression of these genes induced by TCDD. Mechanistically, FLII binds to AHR in a ligand-dependent manner in ARPE-19 cells. In particular, the binding of FLII to MLL1 occurs through the GelB domain of FLII. In addition, MLL1 binds to AHR in a ligand-independent manner. FLII is involved in the recruitment of the BRG1 chromatin remodeler and MLL1 histone methyltransferase to the AHR-regulated CYP1A1 gene region in ARPE-19 cells and consequently, plays an important role in RNA polymerase II binding and transcriptional activity by modulating chromatin accessibility. Our results identify the functions and mechanisms of action of FLII and MLL1 in AHR-induced gene expression in human retinal pigment epithelial cells.
Highlights
Age-related macular degeneration (AMD), along with glaucoma and diabetic retinopathy, is one of the three leading causes of vision loss in individuals over the age of 55 worldwide [1]
TCDD treatment significantly increased the expression of known Aryl hydrocarbon receptors (AHRs) target genes (CYP1A1, CYP1B1 and AHRR) in ARPE-19 cells (Figure 1B)
Transfection significantly decreased the expression of TCDD-induced CYP1A1, CYP1B1 and AHRR compared to the levels in cells transfected with non-specific Small-interfering RNA (siRNA)
Summary
Age-related macular degeneration (AMD), along with glaucoma and diabetic retinopathy, is one of the three leading causes of vision loss in individuals over the age of 55 worldwide [1]. AMD is divided into dry and wet macular degeneration according to the lesion type. Eyes with the dry clinical subtype are characterized by an accumulation of extracellular lipoprotein-rich deposits under the retinal pigment epithelial (RPE) cells and within the Bruch’s membrane. These deposits include drusen, basal layer and basal linear deposits [2,3] that cause RPE dysfunction, apoptosis, activation of local inflammatory responses and retinal tissue degeneration [2,3]. The important molecular events and signaling pathways that lead to progressive RPE dysfunction and extracellular sediment generation remain unknown
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