The mineralocorticoid receptor forms higher order oligomers upon <scp>DNA</scp> binding

The glucocorticoid and mineralocorticoid receptors (GR and MR, respectively) have distinct, yet overlapping physiological and pathophysiological functions. There are indications that both receptors interact functionally and physically, but the precise role of this interdependence is poorly understood. Here, we analyzed the impact of GR coexpression on MR genome-wide transcriptional responses and chromatin binding upon activation by aldosterone and glucocorticoids, both physiological ligands of this receptor. Transcriptional responses of MR in the absence of GR result in fewer regulated genes. In contrast, coexpression of GR potentiates MR-mediated transcription, particularly in response to aldosterone, both in cell lines and in the more physiologically relevant model of mouse colon organoids. MR chromatin binding is altered by GR coexpression in a locus- and ligand-specific way. Single-molecule tracking of MR suggests that the presence of GR contributes to productive binding of MR/aldosterone complexes to chromatin. Together, our data indicate that coexpression of GR potentiates aldosterone-mediated MR transcriptional activity, even in the absence of glucocorticoids.

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The multimerization pathway of the glucocorticoid receptor

Alegre-Martí,

Jiménez-Panizo,

Lafuente

et al. 2024

Preprint

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The glucocorticoid receptor (GR) is a leading drug target due to its anti-inflammatory and immunosuppressive roles. The functional oligomeric conformation of full-length GR (FL-GR), which is key for its biological activity, remains disputed. Here we present a new crystal structure of agonist-bound GR ligand-binding domain (GR-LBD) comprising eight copies of a non-canonical dimer. The biological relevance of this dimer for receptor multimerization in living cells has been verified by studying single- and double-point mutants of FL-GR in fluorescence microscopy (Number & Brightness) and transcriptomic analysis. Self-association of this GR-LBD basic dimer in two mutually exclusive assemblies reveals clues for FL-GR multimerization and activity in cells. We propose a model for the structure of multidomain GR based on our new data and suggest a detailed oligomerization pathway. This model reconciles all currently available structural and functional information and provides a more comprehensive understanding of the rare glucocorticoid resistance disorder (Chrousos syndrome).

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The mineralocorticoid receptor forms higher order oligomers upon DNA binding

Cited by 5 publications

References 77 publications

The impact of mineralocorticoid and glucocorticoid receptor interaction on corticosteroid transcriptional outcomes

The impact of mineralocorticoid and glucocorticoid receptor interaction on corticosteroid transcriptional outcomes

The glucocorticoid receptor potentiates aldosterone-induced transcription by the mineralocorticoid receptor

The multimerization pathway of the glucocorticoid receptor

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