Quantitative Series Enrichment Analysis (QSEA): a novel procedure for 3D-QSAR analysis

Wendt, Bernd; Cramer, Richard D.

doi:10.1007/s10822-008-9195-6

Cited by 10 publications

(11 citation statements)

References 46 publications

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“…Apart from the inconclusive result from HQSAR, these models did not allow for structural interpretation. Therefore, we explored the use of the quantitative series enrichment analysis (QSEA) method for deriving local 3D-SAR from chemical biology data . In QSEA, the ligands of the data set are organized around its centroid, and topomer CoMFA models are being created, starting with the centroid compound and its two nearest neighbors and then iteratively expanding the training set one by one with the next similar compound, each time creating a new topomer CoMFA.…”

Section: Resultsmentioning

confidence: 99%

Toluidinesulfonamide Hypoxia-Induced Factor 1 Inhibitors: Alleviating Drug–Drug Interactions through Use of PubChem Data and Comparative Molecular Field Analysis Guided Synthesis

Wendt¹,

Mülbaier²,

Wawro³

et al. 2011

J. Med. Chem.

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Inhibitors of hypoxia-inducible factor 1 (HIF-1) represent promising anticancer therapeutics. We have identified a series of potent toluidinesulfonamide HIF-1 inhibitors. However, the series was threatened by a potential liability to inhibit CYP2C9 which could cause dangerous drug-drug interactions when being coadministered with other drugs. We used structure-activity data from the PubChem database to develop a topomer CoMFA model that guided the design of novel sulfonamides with high selectivity for HIF-1 over CYP2C9 inhibition.

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Section: Resultsmentioning

confidence: 99%

Toluidinesulfonamide Hypoxia-Induced Factor 1 Inhibitors: Alleviating Drug–Drug Interactions through Use of PubChem Data and Comparative Molecular Field Analysis Guided Synthesis

Wendt¹,

Mülbaier²,

Wawro³

et al. 2011

J. Med. Chem.

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“…A first example of such a topomer-enabled approach is QSEA. 13 As another example, one set of studies underway is calibrating how adding a few templates will automatically generate models more statistically comparable to the 3D-QSAR models published, inherently "multitemplate", for such thoroughly studied targets as ACE, 4 D2A, 14 and thermolysin. 15 If this approach shows promise, then targets for future exploration, having broadest therapeutic relevance, include ion channels and cytochromes.…”

Section: ■ Discussionmentioning

confidence: 99%

“…However, perhaps only now with template CoMFA is it practical to generate such multiple 3D-QSAR models, by varying and extending the templates, including their relative alignments, and also the training set compositions. A first example of such a topomer-enabled approach is QSEA . As another example, one set of studies underway is calibrating how adding a few templates will automatically generate models more statistically comparable to the 3D-QSAR models published, inherently “multitemplate”, for such thoroughly studied targets as ACE, D2A, and thermolysin .…”

Section: Discussionmentioning

confidence: 99%

Template CoMFA Applied to 116 Biological Targets

Cramer

2014

J. Chem. Inf. Model.

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Statistically acceptable 3D-QSAR models were effortlessly obtained, by application of automatic template CoMFA, for the vast majority, arguably more than 95%, of 116 biological targets. Among these targets, 76 were structure-based, pooling multiple templates (as protein-bound conformation of ligands) and training sets into a single model, and the other 40 were ligand-based, with a low-energy conformation of an exemplar training set structure becoming the single template. Criteria proposed for statistical acceptability are a leave-one-out q(2) > 0.4, or a standard error of leave-one-out prediction <1.0, or a ratio of best-fit r(2) to count of PLS components >0.2. The structure-based 3D-QSAR models provide direct visual comparisons of SAR-derived 3D-QSAR contours with cavity surfaces.

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“…And fortunately, the almost unprecedentedly accurate predictions so far reported in lead optimization projects using “topomer CoMFA”, specifically a standard deviation of 0.6 between predicted and found pA50’s, over 144 made-and-tested compounds from four different organizations [13–16], if continued, should further encourage its widespread application. The exceptional speed and objectivity of the topomer CoMFA protocol is also inspiring new methodological opportunities, such as virtual screening for R-groups (see footnote 3), with hits being accompanied by potency predictions, and “QSEA” [15, 17], which simplifies exploration of a so far oft-neglected issue, how a specific QSAR varies with its training set composition. Also emergent at this writing is “template CoMFA” [18], which provides the CADD expert with control over the conformation(s) used to generate a 3D-QSAR, for example in the form of a receptor-bound conformation, while retaining the desirable attributes of topomer CoMFA.…”

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confidence: 99%