Selective, pH‐Dependent Colorimetric and Fluorimetric Detection of Quadruplex DNA with 4‐Dimethylamino(phenyl)‐Substituted Berberine Derivatives

Wickhorst, Peter Jonas; Ihmels, Heiko

doi:10.1002/chem.202100297

Cited by 11 publications

(15 citation statements)

References 117 publications

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“…For example, in the crystal structure, C13 on berberine’s concave site is positioned centrally above the tetrad. Thus, position 13 has commonly been substituted with bulky aromatic moieties, for example, phenylalkyl, diphenylalkyl, dimethylaminophenyl, or pyridine containing groups, to improve stacking interactions or avoid the berberine dimerization. ,,, However, in the solution structure of the berberine–G-quadruplex complex, C13 is located at the edge of the tetrad close to the negatively charged quadruplex groove. Therefore, the more flexible and often cationic alkyl side chains − could be better suited for the berberine concave side, such as position 13 as well as positions 1, 11, and 12, to facilitate backbone interactions and improve binding affinity.…”

Section: Results and Discussionmentioning

confidence: 99%

“…For example, the recruited A6 of the MycG4 has its 6-amino group as a hydrogen-bond donor and N1, N3, or N7 as hydrogen-bond acceptors. Judicial substituents of berberine C4–C8 or O9, which has been derivatized before, ,, may facilitate hydrogen-bond interactions with the recruited adenine. Similar strategies can be used to target G23 at the 3′ binding site of MycG4 or other bases if alternative G-quadruplexes are targeted.…”

Section: Results and Discussionmentioning

confidence: 99%

“…In 2017, a paper by Moraca et al in PNAS using computational simulation also suggested a dimer binding mode . Subsequently, the crystal structure and the dimer binding mode have been actively used as a basis to design G4-targeted berberine derivatives. − …”

Section: Introductionmentioning

confidence: 99%

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Berberine Molecular Recognition of the Parallel MYC G-Quadruplex in Solution

et al. 2021

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The medicinal natural product berberine is one of the most actively studied and pursued G-quadruplex (G4)-ligands. The major G-quadruplex formed in the promoter region of the MYC oncogene (MycG4) is an attractive drug target and a prominent example and model structure for parallel G-quadruplexes. G4-targeted berberine derivatives have been actively developed; however, the analogue design was based on a previous crystal structure in which berberine binds as a dimer to a parallel G-quadruplex. Herein, we show that in solution, the binding mode and stoichiometry of berberine are substantially different from the crystal structure: berberine binds as a monomer to MycG4 using a base-recruitment mechanism with a reversed orientation in that the positively charged convex side is actually positioned above the tetrad center. Our structure provides a physiologically relevant basis for the future structure-based rational design of G4-targeted berberine derivatives, and this study demonstrates that it is crucial to validate the ligand−DNA interactions. Article pubs.acs.org/jmc

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Section: Results and Discussionmentioning

confidence: 99%

Section: Results and Discussionmentioning

confidence: 99%

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Berberine Molecular Recognition of the Parallel MYC G-Quadruplex in Solution

et al. 2021

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“…In 2021, Ihmels’s group successfully synthesized 9-dimethylaminophenyl BBR and 12-dimethylaminophenyl BBR ( 26 and 27 , Figure 12 ) ( Wickhorst and Ihmels, 2021 ). They bond to G4 DNAs with high affinities, both at neutral conditions and at pH 5.…”

Section: Methodsmentioning

confidence: 99%

Structural modifications of berberine and their binding effects towards polymorphic deoxyribonucleic acid structures: A review

Mou

Deng

et al. 2022

Front. Pharmacol.

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Berberine (BBR) is a plant derived quaternary benzylisoquinoline alkaloid, which has been widely used in traditional medicines for a long term. It possesses broad pharmacological effects and is widely applied in clinical. In recent years, the anti-tumor effects of BBR have attracted more and more attention of the researchers. The canonical right-handed double-stranded helical deoxyribonucleic acid (B-DNA) and its polymorphs occur under various environmental conditions and are involved in a plethora of genetic instability-related diseases especially tumor. BBR showed differential binding effects towards various polymorphic DNA structures. But its poor lipophilicity and fast metabolism limited its clinical utility. Structural modification of BBR is an effective approach to improve its DNA binding activity and bioavailability in vivo. A large number of studies dedicated to improving the binding affinities of BBR towards different DNA structures have been carried out and achieved tremendous advancements. In this article, the main achievements of BBR derivatives in polymorphic DNA structures binding researches in recent 20 years were reviewed. The structural modification strategy of BBR, the DNA binding effects of its derivatives, and the structure activity relationship (SAR) analysis have also been discussed.

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“…However, in most cases, this light-up effect is merely coincidental between emission and DNA-binding properties. Nevertheless, 9- and 12-dimethylaminophenyl-substituted berberine derivatives showed potential as pH dependent probes for optical detention of G4s [ 279 ]. Moreover, the derivatives Berb9 upon binding to DNA G4 also exhibited pronounced fluorescent light-up effects, namely, with the alkyl chain n = 4 (with a2) and n = 5 (with 22AG) [ 276 ].…”

Section: Ligand-induced Effectsmentioning

confidence: 99%

Major Achievements in the Design of Quadruplex-Interactive Small Molecules

et al. 2022

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Organic small molecules that can recognize and bind to G-quadruplex and i-motif nucleic acids have great potential as selective drugs or as tools in drug target discovery programs, or even in the development of nanodevices for medical diagnosis. Hundreds of quadruplex-interactive small molecules have been reported, and the challenges in their design vary with the intended application. Herein, we survey the major achievements on the therapeutic potential of such quadruplex ligands, their mode of binding, effects upon interaction with quadruplexes, and consider the opportunities and challenges for their exploitation in drug discovery.

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Selective, pH‐Dependent Colorimetric and Fluorimetric Detection of Quadruplex DNA with 4‐Dimethylamino(phenyl)‐Substituted Berberine Derivatives

Cited by 11 publications

References 117 publications

Berberine Molecular Recognition of the Parallel MYC G-Quadruplex in Solution

Berberine Molecular Recognition of the Parallel MYC G-Quadruplex in Solution

Structural modifications of berberine and their binding effects towards polymorphic deoxyribonucleic acid structures: A review

Major Achievements in the Design of Quadruplex-Interactive Small Molecules

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