Abstract
Structure‐based drug development is often hampered by the lack of in vivo activity of promising compounds screened in vitro, due to low membrane permeability or poor intracellular binding selectivity. Herein, we show that ligand screening can be performed in living human cells by “intracellular protein‐observed” NMR spectroscopy, without requiring enzymatic activity measurements or other cellular assays. Quantitative binding information is obtained by fast, inexpensive 1H NMR experiments, providing intracellular dose‐ and time‐dependent ligand binding curves, from which kinetic and thermodynamic parameters linked to cell permeability and binding affinity and selectivity are obtained. The approach was applied to carbonic anhydrase and, in principle, can be extended to any NMR‐observable intracellular target. The results obtained are directly related to the potency of candidate drugs, that is, the required dose. The application of this approach at an early stage of the drug design pipeline could greatly increase the low success rate of modern drug development.
Highlights
Structure-based drug development is often hampered by the lack of in vivo activity of promising compounds screened in vitro, due to low membrane permeability or poor intracellular binding selectivity
We show that ligand screening can be performed in living human cells by “intracellular protein-observed” Nuclear magnetic resonance (NMR) spectroscopy, without requiring enzymatic activity measurements or other cellular assays
Quantitative binding information is obtained by fast, inexpensive 1H NMR experiments, providing intracellular doseand time-dependent ligand binding curves, from which kinetic and thermodynamic parameters linked to cell permeability and binding affinity and selectivity are obtained
Summary
Deutsche Ausgabe: DOI: 10.1002/ange.201913436 Internationale Ausgabe: DOI: 10.1002/anie.201913436 Drug Screening in Human Cells by NMR Spectroscopy Allows the Early Assessment of Drug Potency Enrico Luchinat, Letizia Barbieri, Matteo Cremonini, Alessio Nocentini, Claudiu T. Supuran, and Lucia Banci*
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