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Ligand-binding dynamics rewire cellular signaling via estrogen receptor-?.


ABSTRACT: Ligand-binding dynamics control allosteric signaling through the estrogen receptor-? (ER?), but the biological consequences of such dynamic binding orientations are unknown. Here, we compare a set of ER ligands having dynamic binding orientation (dynamic ligands) with a control set of isomers that are constrained to bind in a single orientation (constrained ligands). Proliferation of breast cancer cells directed by constrained ligands is associated with DNA binding, coactivator recruitment and activation of the estrogen-induced gene GREB1, reflecting a highly interconnected signaling network. In contrast, proliferation driven by dynamic ligands is associated with induction of ER?-mediated transcription in a DNA-binding domain (DBD)-dependent manner. Further, dynamic ligands showed enhanced anti-inflammatory activity. The DBD-dependent profile was predictive of these signaling patterns in a larger diverse set of natural and synthetic ligands. Thus, ligand dynamics directs unique signaling pathways and reveals a new role of the DBD in allosteric control of ER?-mediated signaling.

SUBMITTER: Srinivasan S 

PROVIDER: S-EPMC3631275 | biostudies-literature | 2013 May

REPOSITORIES: biostudies-literature

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Ligand-binding dynamics rewire cellular signaling via estrogen receptor-α.

Srinivasan Sathish S   Nwachukwu Jerome C JC   Parent Alex A AA   Cavett Valerie V   Nowak Jason J   Hughes Travis S TS   Kojetin Douglas J DJ   Katzenellenbogen John A JA   Nettles Kendall W KW  

Nature chemical biology 20130324 5


Ligand-binding dynamics control allosteric signaling through the estrogen receptor-α (ERα), but the biological consequences of such dynamic binding orientations are unknown. Here, we compare a set of ER ligands having dynamic binding orientation (dynamic ligands) with a control set of isomers that are constrained to bind in a single orientation (constrained ligands). Proliferation of breast cancer cells directed by constrained ligands is associated with DNA binding, coactivator recruitment and a  ...[more]

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