Issue 16, 2016

The influence of intramolecular sulfur–lone pair interactions on small-molecule drug design and receptor binding

Abstract

Sulfur–lone pair interactions are important conformational control elements in sulfur-containing heterocycles that abound in pharmaceuticals, natural products, agrochemicals, polymers and other important classes of organic molecules. Nonetheless, the role of intramolecular sulfur–lone pair interactions in the binding of small molecules to receptors is often overlooked. Here we analyze the magnitudes and origins of these interactions for a variety of biologically relevant small molecules using quantum chemical and automated docking calculations. In most cases examined in this study, the lowest energy conformation of the small molecule displays a sulfur–lone pair close contact. However, docking studies, both published and new, often predict that conformations without sulfur–lone pair contacts have the best binding affinity for their respective receptors. This is a serious problem. Since many of these predicted bound conformations are not actually energetically accessible, pursuing design (e.g., drug design) around these binding modes necessarily will lead, serendipity aside, to dead end designs. Our results constitute a caution that one best not neglect these interactions when predicting the binding affinities of potential ligands (drugs or not) for hosts (enzymes, receptors, DNA, RNA, synthetic hosts). Moreover, a better understanding and awareness of sulfur–lone pair interactions should facilitate the rational modulation of host–guest interactions involving sulfur-containing molecules.

Graphical abstract: The influence of intramolecular sulfur–lone pair interactions on small-molecule drug design and receptor binding

Supplementary files

Article information

Article type
Paper
Submitted
29 Jan 2016
Accepted
30 Mar 2016
First published
30 Mar 2016

Org. Biomol. Chem., 2016,14, 3975-3980

Author version available

The influence of intramolecular sulfur–lone pair interactions on small-molecule drug design and receptor binding

B. M. Hudson, E. Nguyen and D. J. Tantillo, Org. Biomol. Chem., 2016, 14, 3975 DOI: 10.1039/C6OB00254D

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