Room-temperature crystallography reveals altered binding of small-molecule fragments to PTP1B

Author:

Skaist Mehlman Tamar12ORCID,Biel Justin T3ORCID,Azeem Syeda Maryam1ORCID,Nelson Elliot R4,Hossain Sakib1ORCID,Dunnett Louise45,Paterson Neil G4,Douangamath Alice45,Talon Romain4,Axford Danny4,Orins Helen1,von Delft Frank4567ORCID,Keedy Daniel A189ORCID

Affiliation:

1. Structural Biology Initiative, CUNY Advanced Science Research Center

2. PhD Program in Biochemistry, CUNY Graduate Center

3. Department of Bioengineering and Therapeutic Sciences, University of California, San Francisco

4. Diamond Light Source

5. Research Complex at Harwell, Harwell Science and Innovation Campus

6. Centre for Medicines Discovery, Nuffield Department of Medicine, University of Oxford

7. Department of Biochemistry, University of Johannesburg

8. Department of Chemistry and Biochemistry, City College of New York

9. PhD Programs in Biochemistry, Biology, and Chemistry, CUNY Graduate Center

Abstract

Much of our current understanding of how small-molecule ligands interact with proteins stems from X-ray crystal structures determined at cryogenic (cryo) temperature. For proteins alone, room-temperature (RT) crystallography can reveal previously hidden, biologically relevant alternate conformations. However, less is understood about how RT crystallography may impact the conformational landscapes of protein-ligand complexes. Previously, we showed that small-molecule fragments cluster in putative allosteric sites using a cryo crystallographic screen of the therapeutic target PTP1B (Keedy et al., 2018). Here, we have performed two RT crystallographic screens of PTP1B using many of the same fragments, representing the largest RT crystallographic screens of a diverse library of ligands to date, and enabling a direct interrogation of the effect of data collection temperature on protein-ligand interactions. We show that at RT, fewer ligands bind, and often more weakly – but with a variety of temperature-dependent differences, including unique binding poses, changes in solvation, new binding sites, and distinct protein allosteric conformational responses. Overall, this work suggests that the vast body of existing cryo-temperature protein-ligand structures may provide an incomplete picture, and highlights the potential of RT crystallography to help complete this picture by revealing distinct conformational modes of protein-ligand systems. Our results may inspire future use of RT crystallography to interrogate the roles of protein-ligand conformational ensembles in biological function.

Funder

US Department of Education

City College of New York

National Science Foundation

National Institutes of Health

Publisher

eLife Sciences Publications, Ltd

Subject

General Immunology and Microbiology,General Biochemistry, Genetics and Molecular Biology,General Medicine,General Neuroscience

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