5syz Citations

Crystal Structures of the Nuclear Receptor, Liver Receptor Homolog 1, Bound to Synthetic Agonists.

Mays SG, Okafor CD, Whitby RJ, Goswami D, Stec J, Flynn AR, Dugan MC, Jui NT, Griffin PR, Ortlund EA
J Biol Chem 291 25281-25291 (2016)
Cited: 16 times
EuropePMC logo PMID: 27694446

Abstract

Liver receptor homolog 1 (NR5A2, LRH-1) is an orphan nuclear hormone receptor that regulates diverse biological processes, including metabolism, proliferation, and the resolution of endoplasmic reticulum stress. Although preclinical and cellular studies demonstrate that LRH-1 has great potential as a therapeutic target for metabolic diseases and cancer, development of LRH-1 modulators has been difficult. Recently, systematic modifications to one of the few known chemical scaffolds capable of activating LRH-1 failed to improve efficacy substantially. Moreover, mechanisms through which LRH-1 is activated by synthetic ligands are entirely unknown. Here, we use x-ray crystallography and other structural methods to explore conformational changes and receptor-ligand interactions associated with LRH-1 activation by a set of related agonists. Unlike phospholipid LRH-1 ligands, these agonists bind deep in the pocket and do not interact with residues near the mouth nor do they expand the pocket like phospholipids. Unexpectedly, two closely related agonists with similar efficacies (GSK8470 and RJW100) exhibit completely different binding modes. The dramatic repositioning is influenced by a differential ability to establish stable face-to-face π-π-stacking with the LRH-1 residue His-390, as well as by a novel polar interaction mediated by the RJW100 hydroxyl group. The differing binding modes result in distinct mechanisms of action for the two agonists. Finally, we identify a network of conserved water molecules near the ligand-binding site that are important for activation by both agonists. This work reveals a previously unappreciated complexity associated with LRH-1 agonist development and offers insights into rational design strategies.

Articles - 5syz mentioned but not cited (1)

  1. Crystal Structures of the Nuclear Receptor, Liver Receptor Homolog 1, Bound to Synthetic Agonists. Mays SG, Okafor CD, Whitby RJ, Goswami D, Stec J, Flynn AR, Dugan MC, Jui NT, Griffin PR, Ortlund EA. J Biol Chem 291 25281-25291 (2016)


Reviews citing this publication (1)

  1. International Union of Basic and Clinical Pharmacology CXIII: Nuclear Receptor Superfamily-Update 2023. Burris TP, de Vera IMS, Cote I, Flaveny CA, Wanninayake US, Chatterjee A, Walker JK, Steinauer N, Zhang J, Coons LA, Korach KS, Cain DW, Hollenberg AN, Webb P, Forrest D, Jetten AM, Edwards DP, Grimm SL, Hartig S, Lange CA, Richer JK, Sartorius CA, Tetel M, Billon C, Elgendy B, Hegazy L, Griffett K, Peinetti N, Burnstein KL, Hughes TS, Sitaula S, Stayrook KR, Culver A, Murray MH, Finck BN, Cidlowski JA. Pharmacol Rev 75 1233-1318 (2023)

Articles citing this publication (14)

  1. LRH-1 regulates hepatic lipid homeostasis and maintains arachidonoyl phospholipid pools critical for phospholipid diversity. Miranda DA, Krause WC, Cazenave-Gassiot A, Suzawa M, Escusa H, Foo JC, Shihadih DS, Stahl A, Fitch M, Nyangau E, Hellerstein M, Wenk MR, Silver DL, Ingraham HA. JCI Insight 3 96151 (2018)
  2. Development of the First Low Nanomolar Liver Receptor Homolog-1 Agonist through Structure-guided Design. Mays SG, Flynn AR, Cornelison JL, Okafor CD, Wang H, Wang G, Huang X, Donaldson HN, Millings EJ, Polavarapu R, Moore DD, Calvert JW, Jui NT, Ortlund EA. J Med Chem 62 11022-11034 (2019)
  3. Structure and Dynamics of the Liver Receptor Homolog 1-PGC1α Complex. Mays SG, Okafor CD, Tuntland ML, Whitby RJ, Dharmarajan V, Stec J, Griffin PR, Ortlund EA. Mol Pharmacol 92 1-11 (2017)
  4. Development of Hybrid Phospholipid Mimics as Effective Agonists for Liver Receptor Homologue-1. Flynn AR, Mays SG, Ortlund EA, Jui NT. ACS Med Chem Lett 9 1051-1056 (2018)
  5. Development of a Versatile and Sensitive Direct Ligand Binding Assay for Human NR5A Nuclear Receptors. D'Agostino EH, Flynn AR, Cornelison JL, Mays SG, Patel A, Jui NT, Ortlund EA. ACS Med Chem Lett 11 365-370 (2020)
  6. Development of a new class of liver receptor homolog-1 (LRH-1) agonists by photoredox conjugate addition. Cornelison JL, Cato ML, Johnson AM, D'Agostino EH, Melchers D, Patel AB, Mays SG, Houtman R, Ortlund EA, Jui NT. Bioorg Med Chem Lett 30 127293 (2020)
  7. Nonsteroidal ecdysone receptor agonists use a water channel for binding to the ecdysone receptor complex EcR/USP. Browning C, McEwen AG, Mori K, Yokoi T, Moras D, Nakagawa Y, Billas IML. J Pestic Sci 46 88-100 (2021)
  8. Nuclear receptor NR5A2 negatively regulates cell proliferation and tumor growth in nervous system malignancies. Gkikas D, Stellas D, Polissidis A, Manolakou T, Kokotou MG, Kokotos G, Politis PK. Proc Natl Acad Sci U S A 118 e2015243118 (2021)
  9. Differential Modulation of Nuclear Receptor LRH-1 through Targeting Buried and Surface Regions of the Binding Pocket. Cato ML, Cornelison JL, Spurlin RM, Courouble VV, Patel AB, Flynn AR, Johnson AM, Okafor CD, Frank F, D'Agostino EH, Griffin PR, Jui NT, Ortlund EA. J Med Chem 65 6888-6902 (2022)
  10. The acyl chains of phosphoinositide PIP3 alter the structure and function of nuclear receptor steroidogenic factor-1. Bryant JM, Malabanan MM, Vanderloop BH, Nichols CM, Haratipour Z, Poon KT, Sherrod SD, McLean JA, Blind RD. J Lipid Res 62 100081 (2021)
  11. The nuclear receptor LRH-1 discriminates between ligands using distinct allosteric signaling circuits. Mays SG, Hercules D, Ortlund EA, Okafor CD. Protein Sci 32 e4754 (2023)
  12. Comparison of activity, structure, and dynamics of SF-1 and LRH-1 complexed with small molecule modulators. Cato ML, D'Agostino EH, Spurlin RM, Flynn AR, Cornelison JL, Johnson AM, Fujita RA, Abraham SM, Jui NT, Ortlund EA. J Biol Chem 299 104921 (2023)
  13. Enantiomer-specific activities of an LRH-1 and SF-1 dual agonist. Mays SG, Stec J, Liu X, D'Agostino EH, Whitby RJ, Ortlund EA. Sci Rep 10 22279 (2020)
  14. New High-Throughput Screen Discovers Novel Ligands of Full-Length Nuclear Receptor LRH-1. Malabanan MM, Chapagain P, Haratipour Z, Choi WJ, Orun AR, Blind RD. ACS Chem Biol 18 1101-1114 (2023)


Quick links