OR11-03 A Novel Mutation In The Ligand-binding Domain Of The NR3C1 Gene Associated With Fluctuating Resistance To Glucocorticoids

Abstract

Abstract Disclosure: M. Laulhé: None. E. Kuhn: None. J. Bouligand: None. L. Amazit: None. J. Perrot: None. P. Kamenicky: None. M. Lombes: None. J. Fagart: None. S. Viengchareun: None. L. Martinerie: None. Introduction: Constitutive glucocorticoid resistance is associated with mutations in the NR3C1 gene, encoding the Glucocorticoid Receptor (GR). We identified a novel heterozygous point mutation causing fluctuating resistance to glucocorticoid depending on ligand concentrations. Initially, the propositus, a 45-year-old man, was diagnosed with a right adrenal incidentaloma and an ACTH-independent biological hypercortisolism. Shortly after adrenal surgery, plasma cortisol increased again (612 nmol/L) associated with inadequate ACTH levels (122 pg/mL) without any evidence of pituitary adenoma or ectopic ACTH-secreting tumor, suggesting a glucocorticoid resistance syndrome. Methods: We sequenced NR3C1 gene and performed in vitro analysis to assess contribution of this variant to the patient’s phenotype and how it affects biological activity of GR. Results: Exon sequencing of the NR3C1 gene identified a novel missense variant located on exon 5 (NM_000176.3, c.1706 G>A) resulting in substitution of arginine to glutamine at amino acid 569 (GR R569Q) in the Ligand-Binding Domain (LBD) of GR. We characterized transcriptional activity of GR R569Q in HEK 293T cells transiently co-transfected with either GR WT or GR R569Q, together with a luciferase reporter gene construct placed under control of a promoter containing two glucocorticoid responsive elements. We observed a decreased transcriptional activity of GR R569Q (EC50 4.55 nM [3.8;5.3]) compared to GR WT (EC50 0.19 nM [0.15; 0.24]), in response to dexamethasone. Interestingly, GR R569Q exerted a dominant negative effect on GR WT, with a decrease in transcriptional activity of 80% when stimulated with 1 nM dexamethasone (2-way ANOVA test, P<0.0001), which was blunted when stimulated with a 100-fold higher concentration of dexamethasone. As the variant is located within the second nuclear localization signal, we studied nuclear translocation in response to 1 nM cortisol for 1 h. As expected, nuclear-cytoplasmic ratio was lower in patients’ fibroblasts (2.3 ± 0.14 vs 3.0 ± 0.98, ANOVA 2-Way, P < 0.0001) compared with control fibroblasts, as quantified by automated high-throughput microscopy. Three-dimensional modeling revealed that arginine substitution leads to loss of a hydrogen bond stabilizing the LBD structure. This may result in a lower ligand affinity that can be bypassed by high concentrations of agonist. We are currently testing receptor affinity and reversibility of phenotype after hydrogen bond restoration by directed mutagenesis (c.1705 C>A, p.Q569K). Conclusion: Overall, we identified a novel variant of the NR3C1 gene associated with fluctuating GR sensitivity depending on ligand concentration. This finding may provide new insights into mechanisms involved in GR sensitivity. Presentation: Friday, June 16, 2023