Life Beyond Kinases: Structure-Based Discovery of Sorafenib as Nanomolar Antagonist of 5-HT Receptors

Lin, Xingyu; Huang, Xi Ping; Chen, Gang; Whaley, Ryan; Peng, Shiming; Wang, Yanli; Zhang, Guoliang; X., Wang, Simon; Wang, Shaohui; Roth, Bryan L.; Huang, Niu

doi:10.1021/jm300338m

Cited by 68 publications

(58 citation statements)

References 73 publications

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“…This approach, which we dubbed "receptorome screening," and which has been extensively described in prior reviews (17,(32)(33)(34), has led us to a number of important discoveries including: the identification of the -opioid receptor as the site of action of the widely abused hallucinogen salvinorin A (35); the discovery that the 5-HT 2B serotonin receptor is the valvulopathy receptor (6); identification of the remarkably complex pharmacology of antipsychotic drugs (36); large-scale validation of cheminformatics predictions (3,22); identification of GPCR as high affinity off-targets of kinase inhibitors (37)(38)(39); and large-scale validation of computationally docked and crystallography-confirmed binding poses (11, 40 -48) As radioligand-based approaches require radioligands with high specific activity and high affinity for their targets, they are not useful for the vast majority of GPCRs, for which such radioligands are unavailable. Additionally, the physical, informatics, and infrastructure requirements required to routinely screen more than a few GPCRs simultaneously using radioligand binding assays are beyond the resources of most academic and industrial laboratories.…”

Section: Physical Approaches For Interrogating the Gpcr-omementioning

confidence: 99%

Integrated Approaches for Genome-wide Interrogation of the Druggable Non-olfactory G Protein-coupled Receptor Superfamily

Roth

Kroeze

2015

Journal of Biological Chemistry

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Section: Physical Approaches For Interrogating the Gpcr-omementioning

confidence: 99%

Integrated Approaches for Genome-wide Interrogation of the Druggable Non-olfactory G Protein-coupled Receptor Superfamily

Roth

Kroeze

2015

Journal of Biological Chemistry

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“…[164] In fact, very few examples actually exist on the use of these ligandbased methods to predict affinities between molecules and proteins distantly related to any of their already known targets. [17,[19][20][21] In this respect, structure-based methods may complement ligand-based methods to detect distant polypharmacology.…”

Section: Detection Of Distant Polypharmacologymentioning

confidence: 99%

Identification of Similar Binding Sites to Detect Distant Polypharmacology

Jalencas

Mestres

2013

Molecular Informatics

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The ability of small molecules to interact with multiple proteins is referred to as polypharmacology. This property is often linked to the therapeutic action of drugs but it is known also to be responsible for many of their side effects. Because of its importance, the development of computational methods that can predict drug polypharmacology has become an important line of research that led recently to the identification of many novel targets for known drugs. Nowadays, the majority of these methods are based on measuring the similarity of a query molecule against the hundreds of thousands of molecules for which pharmacological data on thousands of proteins are available in public sources. However, similarity-based methods are inherently biased by the chemical coverage offered by the active molecules present in those public repositories, which limits significantly their capacity to predict interactions with proteins structurally and functionally unrelated to any of the already known targets for drugs. It is in this respect that structure-based methods aiming at identifying similar binding sites may offer an alternative complementary means to ligand-based methods for detecting distant polypharmacology. The different existing approaches to binding site detection, representation, comparison, and fragmentation are reviewed and recent successful applications presented.

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“…Physics-based docking and sampling techniques facilitate such efforts by providing near-native binding poses for interested small molecules [10,11] . However, in contrast with achievements in identifying novel ligands for the specific protein [12][13][14] , there are few reports with respect to the other side of the coin, which means explore new targets for the specific small-molecule drug [15,16] . This could be partially attributed to the inability of current scoring functions in estimating the entropy contribution as well as desolvation effects, which becomes more severe when estimating the absolute binding free energy for a given drug in context of distinct targets [16] .…”

Section: Research Highlightmentioning

confidence: 99%

In Silico Study of Polypharmacology with Ligand-based Interaction Fingerprint

2015

Receptors Clin Investig

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The past years have witnessed the versatile applications of interaction fingerprint method, including three-dimensional structure analysis, docking-pose clustering and filtering, scoring function improvement and enhancing enrichment of virtual screening. However, it's still unclear whether it's possible to study the polypharmacology with such a strategy. We have explored this important question by assessing the performance of ligand-based interaction fingerprint (LIFt), a new approach providing insights into the target profiles for the selected small drug. According to our results, it's found that LIFt could recognize most of the native targets for the promiscuous kinase inhibitor staurosporine on the basis of experimental determined complex structures. In addition, with assistance of physics-based docking and sampling techniques, LIFt can predict the kinase-selectivity profile as well as the unexpected off-targets for the clinical drug or experimental candidates with appreciated accuracy. More encouragingly, a prospective prediction of new target for the established synthetic anti-tumor drug TN-16 was experimentally validated, which suggests the promise of LIFt in practical use of polypharmacology study.

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Life Beyond Kinases: Structure-Based Discovery of Sorafenib as Nanomolar Antagonist of 5-HT Receptors

Cited by 68 publications

References 73 publications

Integrated Approaches for Genome-wide Interrogation of the Druggable Non-olfactory G Protein-coupled Receptor Superfamily

Integrated Approaches for Genome-wide Interrogation of the Druggable Non-olfactory G Protein-coupled Receptor Superfamily

Identification of Similar Binding Sites to Detect Distant Polypharmacology

In Silico Study of Polypharmacology with Ligand-based Interaction Fingerprint

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