Application of two-dimensional binary fingerprinting methods for the design of selective Tankyrase I inhibitors

Abstract: In the present study, five important binary fingerprinting techniques were used to model novel flavones for the selective inhibition of Tankyrase I. From the fingerprints used: the fingerprint atom pairs resulted in a statistically significant 2D QSAR model using a kernel-based partial least square regression method. This model indicates that the presence of electron-donating groups positively contributes to activity, whereas the presence of electron withdrawing groups negatively contributes to activity. This … Show more

“…Recently, both 2D-and 3D-quantitative structure− activity relationship (QSAR) models have been engaged for the discovery of new flavone-based tankyrase inhibitors. 149,150 Collectively, the above studies have laid the foundation for the rational use of flavone as a chemical scaffold for tankyrase inhibitors and have also guided the development of other analogous structures. A good example of the latter is 2phenylquinazolin-4-one, which was further modified into tankyrase/kinase dual inhibitors.…”

“…Crystals of tankyrase 2 in complex with the majority of active flavones were successfully grown and analyzed, unveiling a common binding pattern: (i) the keto oxygen atom of the chromen-4-one core makes hydrogen bonds with the backbone amide of G1032 and the hydroxy side chain of S1068 and (ii) the pyran ring forms a π–π stacking interaction with the aromatic side chain of Y1071 (Figure E). , In addition, various substituents on the flavone scaffold develop further interactions with the enzyme directly or through water molecules. Recently, both 2D- and 3D-quantitative structure–activity relationship (QSAR) models have been engaged for the discovery of new flavone-based tankyrase inhibitors. , Collectively, the above studies have laid the foundation for the rational use of flavone as a chemical scaffold for tankyrase inhibitors and have also guided the development of other analogous structures. A good example of the latter is 2-phenylquinazolin-4-one, which was further modified into tankyrase/kinase dual inhibitors. , Another natural product investigated as a tankyrase inhibitor is magnolol, but research into this skeleton is still very much in its infancy; only a few synthetic magnolol derivatives were found to have an affinity for tankyrase 2 …”

Small-Molecule Inhibitors of Tankyrases as Prospective Therapeutics for Cancer

“…Recently, both 2D-and 3D-quantitative structure− activity relationship (QSAR) models have been engaged for the discovery of new flavone-based tankyrase inhibitors. 149,150 Collectively, the above studies have laid the foundation for the rational use of flavone as a chemical scaffold for tankyrase inhibitors and have also guided the development of other analogous structures. A good example of the latter is 2phenylquinazolin-4-one, which was further modified into tankyrase/kinase dual inhibitors.…”

“…Crystals of tankyrase 2 in complex with the majority of active flavones were successfully grown and analyzed, unveiling a common binding pattern: (i) the keto oxygen atom of the chromen-4-one core makes hydrogen bonds with the backbone amide of G1032 and the hydroxy side chain of S1068 and (ii) the pyran ring forms a π–π stacking interaction with the aromatic side chain of Y1071 (Figure E). , In addition, various substituents on the flavone scaffold develop further interactions with the enzyme directly or through water molecules. Recently, both 2D- and 3D-quantitative structure–activity relationship (QSAR) models have been engaged for the discovery of new flavone-based tankyrase inhibitors. , Collectively, the above studies have laid the foundation for the rational use of flavone as a chemical scaffold for tankyrase inhibitors and have also guided the development of other analogous structures. A good example of the latter is 2-phenylquinazolin-4-one, which was further modified into tankyrase/kinase dual inhibitors. , Another natural product investigated as a tankyrase inhibitor is magnolol, but research into this skeleton is still very much in its infancy; only a few synthetic magnolol derivatives were found to have an affinity for tankyrase 2 …”

Small-Molecule Inhibitors of Tankyrases as Prospective Therapeutics for Cancer

“…Description: pairs of atoms is segregated by the type and distance separating them. 27 The fingerprint decides the principle of atom pairs (pairs of atoms) and the distance separating them: Type a -Type b -d ab where, Type a ≤ Type b . The representation is hashed into an integer value and 'd' is the shortest distance between any pair of atoms.…”

Fingerprint Based Two-dimensional QSAR Studies on Pyrazolo Quinazolines as Cdk2 Inhibitors: A Rational Approach for the Design of Novel Anticancer Agents