Similarities in Bioanalogous Structural Transformation Patterns among Various Bioactive Compound Series

Fujita, Toshio

doi:10.1271/bbb.60.557

Cited by 10 publications

(2 citation statements)

References 20 publications

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“…This assumption coincides with the realisation that only a small portion of the gene-coded proteins are druggable; in other words, only a few are able to bind small molecules. Bioanalogous substructures or privileged structures could interact with amino acid regions in a similar manner, most likely reflecting similar pharmacophoric features [18,19] .…”

Section: Bioanalogous Versus Isofunctional Chemical Space (Biosimilarmentioning

confidence: 99%

Enhanced hit-to-lead process using bioanalogous lead evolution and chemogenomics: application in designing selective matrix metalloprotease inhibitors

Papp¹,

Szommer²,

Barna³

et al. 2007

Expert Opinion on Drug Discovery

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The authors describe an innovative approach for designing novel inhibitors. This approach effectively integrates the emerging chemogenomics concept of target-family-based drug discovery with bioanalogous design strategies, including privileged structures, molecular frameworks as well as bioisosteric and bioanalogous/isofunctional modifications. The authors applied this method in the design of selective inhibitors of matrix metalloproteases (MMPs), also referred to as matrixins, on the basis of a unique analysis of the ligand-target knowledge base, the 'matrixinome'. For this analysis, the authors created an annotated MMP database containing ∼ 300 inhibitors with their published activity profile. The ligand space was then arranged into a lead evolution tree, where the substructural transformations in each virtual step led to marked changes in the activity pattern. This allowed subtype-specific privileged fragments to be extracted as well as modifications, which improve activity and/or selectivity. Furthermore, the compounds with the preferred activity profile were correlated with sequence homology as well as binding site similarity within the target family, thereby leading to the identification of substructural modifications that turn non-selective, biohomologous structures into selective inhibitors. The matrixinomic application of the authors' approach, therefore, provides an example of how the combination of ligand space knowledge with sequence-related data can radically improve the outcome of the lead optimisation process to achieve higher selectivity within a given target family.

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Section: Bioanalogous Versus Isofunctional Chemical Space (Biosimilarmentioning

confidence: 99%

Enhanced hit-to-lead process using bioanalogous lead evolution and chemogenomics: application in designing selective matrix metalloprotease inhibitors

Papp¹,

Szommer²,

Barna³

et al. 2007

Expert Opinion on Drug Discovery

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“…These correlated substructure pairs are often referred to as bioisosteres . In general, a bioisostere is typically defined as a pair of substructures that exhibit similar physicochemical properties while also conveying similar biological properties to a molecule, and several reviews have been published on the topic. − However, the bioisostere is more accurately labeled as a concept as this definition is functionally inadequate.…”

Section: Introductionmentioning

confidence: 99%

Rationalizing Lead Optimization by Associating Quantitative Relevance with Molecular Structure Modification

Raymond

Watson

Mahoui

2009

J. Chem. Inf. Model.

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Historically, one of the characteristic activities of the medicinal chemist has been the iterative improvement of lead compounds until a suitable therapeutic entity is achieved. Often referred to as lead optimization, this process typically takes the form of minor structural modifications to an existing lead in an attempt to ameliorate deleterious attributes while simultaneously trying to maintain or improve desirable properties. The cumulative effect of this exercise performed over the course of several decades of pharmaceutical research by thousands of trained researchers has resulted in large collections of pharmaceutically relevant chemical structures. As far as the authors are aware, this work represents the first attempt to use that data to define a framework to quantifiably catalogue and summate this information into a medicinal chemistry expert system. A method is proposed that first comprehensively mines a compendium of chemical structures compiling the structural modifications, abridges them to rectify artificially inflated support levels, and then performs an association rule mining experiment to ascribe relative confidences to each transformation. The result is a catalogue of statistically relevant structural modifications that can potentially be used in a number of pharmaceutical applications.

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Structure-Activity Relationship and Molecular Design of Peroxidizing Herbicides with Cyclic Imide Structures and Their Relatives

Fujita¹,

Nakayama

1999

Peroxidizing Herbicides

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Similarities in Bioanalogous Structural Transformation Patterns among Various Bioactive Compound Series

Cited by 10 publications

References 20 publications

Enhanced hit-to-lead process using bioanalogous lead evolution and chemogenomics: application in designing selective matrix metalloprotease inhibitors

Enhanced hit-to-lead process using bioanalogous lead evolution and chemogenomics: application in designing selective matrix metalloprotease inhibitors

Rationalizing Lead Optimization by Associating Quantitative Relevance with Molecular Structure Modification

Structure-Activity Relationship and Molecular Design of Peroxidizing Herbicides with Cyclic Imide Structures and Their Relatives

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