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Abstract
Glucocorticoids are among the most potent and effective agents for treating inflammatory diseases and hematological cancers. However, subpopulations of patients are often resistant to steroid therapy, and determining the molecular mechanisms that contribute to glucocorticoid resistance is thus critical to addressing this clinical problem affecting patients with chronic inflammatory disorders. Since the cellular level of the glucocorticoid receptor (GR) is a critical determinant of glucocorticoid sensitivity and resistance, we investigated the molecular mechanisms mediating repression of glucocorticoid receptor gene expression. We show here that glucocorticoid-induced repression of GR gene expression is mediated by inhibition of transcription initiation. This process is orchestrated by the recruitment of agonist-bound GR to exon 6, followed by the assembly of a GR-NCoR1-histone deacetylase 3-containing repression complex at the transcriptional start site of the GR gene. A functional negative glucocorticoid response element (nGRE) in exon 6 of the GR gene and a long-range interaction occurring between this intragenic response element and the transcription start site appear to be instrumental in this repression. This autoregulatory mechanism of repression implies that the GR concentration can coordinate repression with excess ligand, regardless of the combinatorial associations of tissue-specific transcription factors. Consequently, the chronic nature of inflammatory conditions involving long-term glucocorticoid administration may lead to constitutive repression of GR gene transcription and thus to glucocorticoid resistance.
SUPPLEMENTAL MATERIAL
Supplemental material for this article may be found at http://dx.doi.org/10.1128/MCB.01151-12.
ACKNOWLEDGMENTS
This research was supported by the Intramural Research Program of the NIH, National Institute of Environmental Health Sciences.