Author
Listed:
- Miquel Duran-Frigola
- Lydia Siragusa
- Eytan Ruppin
- Xavier Barril
- Gabriele Cruciani
- Patrick Aloy
Abstract
In the era of systems biology, multi-target pharmacological strategies hold promise for tackling disease-related networks. In this regard, drug promiscuity may be leveraged to interfere with multiple receptors: the so-called polypharmacology of drugs can be anticipated by analyzing the similarity of binding sites across the proteome. Here, we perform a pairwise comparison of 90,000 putative binding pockets detected in 3,700 proteins, and find that 23,000 pairs of proteins have at least one similar cavity that could, in principle, accommodate similar ligands. By inspecting these pairs, we demonstrate how the detection of similar binding sites expands the space of opportunities for the rational design of drug polypharmacology. Finally, we illustrate how to leverage these opportunities in protein-protein interaction networks related to several therapeutic classes and tumor types, and in a genome-scale metabolic model of leukemia.Author summary: Traditionally, the fact that most drugs are promiscuous binders has been a major concern in pharmacology, due to the occurrence of undesired off-target clinical events. In the recent years, however, the realization that many diseases are the result of complex biological processes has encouraged rethinking of drug promiscuity as a promising feature, since it is sometimes necessary to interfere with multiple receptors in order to overcome the robustness of disease-related networks. One way to identify groups of proteins that could be targeted simultaneously is to look for similar binding sites. We have massively done so for all human proteins with a known high-resolution three-dimensional structure, unveiling a vast space of ‘polypharmacology’ opportunities. Of these, we know, a great majority is not of therapeutic interest. To pinpoint promising multi-target combinations, we advocate for the use of computational tools that are able to rapidly simulate the effect of drug-target interactions on biological networks.
Suggested Citation
Miquel Duran-Frigola & Lydia Siragusa & Eytan Ruppin & Xavier Barril & Gabriele Cruciani & Patrick Aloy, 2017.
"Detecting similar binding pockets to enable systems polypharmacology,"
PLOS Computational Biology, Public Library of Science, vol. 13(6), pages 1-18, June.
Handle:
RePEc:plo:pcbi00:1005522
DOI: 10.1371/journal.pcbi.1005522
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