Dependence of the anticancer activity of 1,3‐oxazole derivatives on the donor/acceptor nature of his substitues

Kachaeva, Maryna; Hodyna, Diana; Obernikhina, Nataliya; Pilyo, Stepan; Kovalenko, Yulia V.; Прокопенко, В. М.; Kachkovsky, O.D.; Броварец, В. С.

doi:10.1002/jhet.3711

Cited by 16 publications

(8 citation statements)

References 55 publications

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“…Typically, electron accepting groups at the 4 th position of 1,3-oxazoles increase the stability of the 5-membered electron-rich oxazole cycle. Moreover, oxazole derivatives containing similar substituents have demonstrated high biological activity [9]. The dimethyl substituted oxazole 1 was chosen as a reference molecule; the one-and two-phenyl substituted derivatives 2-4 were compared to oxazole 1.…”

Section: Methodsmentioning

confidence: 99%

“…The substituted 1,3-oxazoles with branched -conjugated systems also were studied in vitro at the National Cancer Institute in the USA, as part of a therapeutic program for the development of DTP. It was found that these compounds are promising component in the development of new biologically active substances exhibiting antitumor activity which is strongly dependent on the nature of the substituents in heterocyclic core [7][8][9][10]. That leads to additional research activity toward developing new pharmaceuticals [11][12].…”

Section: Introductionmentioning

confidence: 99%

“…At the same time, the introduction of substituents with a conjugated -electron system in the 1,3-oxazole ring increases the stabilization of resulted complex [Pharm-BioM] by -stacking interaction. The presence of the phenyl substituent in 1,3-oxazole substrate increases biological activity, particularly, the inhibitory effect on the cancerous tumors [9][10]. These molecular fragments can generate an additional complementary structure with many biopolymers, which is considered an important condition for increasing selectivity for potential targets.…”

Section: Introductionmentioning

confidence: 99%

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In silico binding affinity studies of phenyl-substituted 1,3-oxazoles with protein molecules

et al. 2020

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The new model approach of interaction between the pharmacophores with bio-molecules, fragment-to-fragment, is presented. It is a new step of the molecular modeling and takes correctly into consideration not only the spatial complementarity of the interacted molecules but also the contribution of the stacking π-π-electron interaction and hydrogen bonds. As an example, the correct analysis of the interaction of the biological active phenyl-substituted 1,3-oxazoles with protein fragments is performed. It was shown that the length and energy of the hydrogen bond uniquely depend on the chemical constitution of both components in the created complex [Pharmacophore(Oxazole)-Biomolecule (H-X)]. The binding energy regularly decreases in the series X → O, S, NH (fragments of the corresponding biomolecules). It should be pointed out that introduction of the conjugated phenyl groups at positions 2 and 5 of oxazoles increase the stability of the possibly generated complex Pharmacophore-Biomolecule [Pharm-BioM] with fragments of the corresponding biomolecules along the core of oxazole by 0.2 and 0.5 kcal/mole. At the same time, modeling of the possibly generated complex [Pharm-BioM] by phenyl substituents at position 2 and 5 of 1,3-oxazole with phenylalanine as a fragment of protein molecules additionally stabilizes complex by 2.5 kcal/mole by π-stacking mechanism. It seems, the observed biological activity of the phenyl substituted 1,3-oxazole is rather connected with the possibility to generate the stable complex due to the formation of additional bonds with other fragments (conjugated phenyl core). The calculations give that such substituents do not cause spatial hindrances with the polypeptide chain.

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Section: Methodsmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

Section: Introductionmentioning

confidence: 99%

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In silico binding affinity studies of phenyl-substituted 1,3-oxazoles with protein molecules

et al. 2020

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“…Hence, molecular docking was done onto the active site of DNA Topo II enzyme (PDB: 3QX3) to understand the antitumor activity of these compounds. Benzoxazole-isoxazole-1,2,3-triazole derivative 1,2,3-Triazole [56,57] and oxazole [57,58] are previously reported to have shown cytotoxic activity. Dadmal [59] and team have coupled this 1,2,3-triazole and oxazole moiety with benzothiazole and benzoxazole moiety (Fig.…”

Section: Benzoxazole-sulphamide Derivativementioning

confidence: 99%

Anticancer activity of benzoxazole derivative (2015 onwards): a review

Ghoshal

Patel

2020

Futur J Pharm Sci

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Background According to the report published recently by the World Health Organization, the number of cancer cases in the world will increase to 22 million by 2030. So the anticancer drug research and development is taking place in the direction where the new entities are developed which are low in toxicity and are with improved activity. Benzoxazole and its derivative represent a very important class of heterocyclic compounds, which have a diverse therapeutic area. Recently, many active compounds synthesized are very effective; natural products isolated with benzoxazole moiety have also shown to be potent towards cancer. Main text In the last few years, many research groups have designed and developed many novel compounds with benzoxazole as their backbone and checked their anticancer activity. In the review article, the recent developments (mostly after 2015) made in the direction of design and synthesis of new scaffolds with very potent anticancer activity are briefly described. The effect of various heterocycles attached to the benzoxazole and their effect on the anticancer activity are thoroughly studied and recorded in the review. Conclusion These compiled data in the article will surely update the scientific community with the recent development in this area and will provide direction for further research in this area.

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“…All the selected compounds were evaluated for their anticancer activity. Primary in vitro one dose anticancer assay was performed in full NCI 60 cell panel representing leukemia, non-small cell lung cancer, melanoma and cancers of colon, brain, breast, ovary and prostate in accordance with the protocol of the NCI, USA [7,10]. The compounds were added at a single concentration (10-5M).…”

Section: In Vitro Evaluation Of the Anticancer Activitymentioning

confidence: 99%

Influence of Donor and Acceptor Substituents in 1,3-Oxazole Derivatives and Their Anti-Cancer Activity

Obernikhina

2019

OMCIJ

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Dependence of the anticancer activity of 1,3‐oxazole derivatives on the donor/acceptor nature of his substitues

Cited by 16 publications

References 55 publications

In silico binding affinity studies of phenyl-substituted 1,3-oxazoles with protein molecules

In silico binding affinity studies of phenyl-substituted 1,3-oxazoles with protein molecules

Anticancer activity of benzoxazole derivative (2015 onwards): a review

Influence of Donor and Acceptor Substituents in 1,3-Oxazole Derivatives and Their Anti-Cancer Activity

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