posted on 2022-05-03, 16:08authored byMichael
L. Cato, Jeffery L. Cornelison, Racheal M. Spurlin, Valentine V. Courouble, Anamika B. Patel, Autumn R. Flynn, Alyssa M. Johnson, C. Denise Okafor, Filipp Frank, Emma H. D’Agostino, Patrick R. Griffin, Nathan T. Jui, Eric A. Ortlund
Liver
receptor homologue-1 (LRH-1) is a phospholipid-sensing nuclear
receptor that has shown promise as a target for alleviating intestinal
inflammation and metabolic dysregulation in the liver. LRH-1 contains
a large ligand-binding pocket, but generating synthetic modulators
has been challenging. We have had recent success generating potent
and efficacious agonists through two distinct strategies. We targeted
residues deep within the pocket to enhance compound binding and residues
at the mouth of the pocket to mimic interactions made by phospholipids.
Here, we unite these two designs into one molecule to synthesize the
most potent LRH-1 agonist to date. Through a combination of global
transcriptomic, biochemical, and structural studies, we show that
selective modulation can be driven through contacting deep versus
surface polar regions in the pocket. While deep pocket contacts convey
high affinity, contacts with the pocket mouth dominate allostery and
provide a phospholipid-like transcriptional response in cultured cells.