Abstract
Glucocorticoids are commonly used to treat inflammatory disorders. The glucocorticoid receptor (GR) can tether to inflammatory transcription factor complexes, such as NFκB and AP-1, and trans-repress the transcription of cytokines, chemokines, and adhesion molecules. In contrast, aldosterone and the mineralocorticoid receptor (MR) primarily promote cardiovascular inflammation by incompletely understood mechanisms. Although MR has been shown to weakly repress NFκB, its role in modulating AP-1 has not been established. Here, the effects of GR and MR on NFκB and AP-1 signaling were directly compared using a variety of ligands, two different AP-1 consensus sequences, GR and MR DNA-binding domain mutants, and siRNA knockdown or overexpression of core AP-1 family members. Both GR and MR repressed an NFκB reporter without influencing p65 or p50 binding to DNA. Likewise, neither GR nor MR affected AP-1 binding, but repression or activation of AP-1 reporters occurred in a ligand-, AP-1 consensus sequence-, and AP-1 family member-specific manner. Notably, aldosterone interactions with both GR and MR demonstrated a potential to activate AP-1. DNA-binding domain mutations that eliminated the ability of GR and MR to cis-activate a hormone response element-driven reporter variably affected the strength and polarity of these responses. Importantly, MR modulation of NFκB and AP-1 signaling was consistent with a trans-mechanism, and AP-1 effects were confirmed for specific gene targets in primary human cells. Steroid nuclear receptor trans-effects on inflammatory signaling are context-dependent and influenced by nuclear receptor conformation, DNA sequence, and the expression of heterologous binding partners. Aldosterone activation of AP-1 may contribute to its proinflammatory effects in the vasculature.
Highlights
Glucocorticoids are commonly used to treat inflammatory disorders
The selective expression of glucocorticoid receptor (GR), mineralocorticoid receptor (MR), and receptor mutants allowed us to examine the role of MR in regulating NFB or AP-1 signaling independently of other influences
To demonstrate the cis-activation potential of these receptors, cells were transfected with GR, MR, or empty expression vector along with an hormone response elements (HREs)-driven mouse mammary tumor virus (MMTV) luciferase reporter and treated with dexamethasone (DEX), budesonide (BUD), deoxycorticosterone acetate (DOC), or ALD
Summary
GR trans-represses NFB, AP-1, and other inflammatory transcription factor complexes without direct binding to DNA via protein-protein tethering. These “trans” mechanisms are considered to primarily account for glucocorticoid effects on a large repertoire of inflammatory gene targets, including cytokines, chemokines, and adhesion molecules [13,14,15,16,17]. MR cis-induction of serum- and glucocorticoidinducible protein kinase-1 (SGK1) [25, 26], a prototypic MR target gene, and subsequent activation of stress kinase pathways [27, 28] have been implicated in inflammatory NFB signaling. For MR, these various context-dependent patterns, reflecting different interactions with AP-1 signaling, were confirmed for specific gene targets in primary human cells. AP-1 activation might explain some of the proinflammatory effects of ALD in the human vasculature
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