Antioxidant and Cytotoxicity Potential of Six Synthesized Chalcones

Pharmacology & Pharmacy Pub Date : 2018-12-26 DOI:10.4236/PP.2018.912042

S. Kouakou, M. Ouattara, J. P. N'Guessan, S. Coulibaly, A. G. Irié-N’guessan, G. Kouakou-Siransy

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Abstract

Background: Chalcones are open-chain flavonoids which display a large number of pharmacological activities such as cytotoxic, anti-inflammatory including antioxidant. The objective of this study was to assess antioxidant and cytotoxic activity of six synthesized chalcones. Methodology: For the current experiments, 1,3-diphenylpropenone (compound R) was used as molecular model to synthetize six compounds, namely three benzyl-benzimidazolyl-chalcones (U1, U2, WAC1) and three imidazopyridinyl-chalcones (V1, V2, V3). All the compounds were evaluated for their ability to scavenge the stable free ABTS.+ radical cation, according to the method develop by Choong et al. In addition, the cytotoxicity test described by Price et al., was performed using healthy human cell line, then in human malignant cell lines (HEP-2, A549). Results: All synthesized chalcones reduced the ABTS.+ radical cation. Indeed, benzyl benzimidazolyl compounds WAC1, U1, U2, by developing respectively 39.61%, 66.09%, and 84.20% percentages of reduction, showed an antioxidant effect 6, 11 and 14 times greater than the compound R (6.14%). As a result, imidazopyridinyl-chalcones compounds, namely V1, V2 and V3 reduced the ABTS.+ radical cation at 91.62%, 99.84% and 97.45% respectively, being 15 and 16 times more active than the compound R. About cytotoxicity, V2 inhibited not significantly HEP-2 malignant cells growth at 48.64%, compared to the standard product, i.e. doxorubicin that inhibited the growth of the same cells at 42.37%. WAC1 inhibited significantly the growth of A549 malignant cells at 89.53%, more than doxorubicin which percentage of growth inhibition was 71.58%. Conclusion: The presence of the α, β-unsaturated carbonyl system (or 1,3-diphenylpropenone) along with a benzimidazole or imidazopyridine heterocyclic ring is likely to contribute to both cytotoxic and antioxidant activities of these compounds.

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六种合成查尔酮的抗氧化和细胞毒性

背景:查尔酮是一种开链类黄酮，具有细胞毒、抗炎、抗氧化等多种药理活性。本研究的目的是评估六种合成查尔酮的抗氧化和细胞毒活性。方法:本实验以1,3-二苯丙烯(化合物R)为分子模型，合成了3个苯并咪唑查尔酮(U1、U2、WAC1)和3个咪唑吡啶查尔酮(V1、V2、V3) 6个化合物。所有化合物对稳定游离ABTS的清除能力进行了评价。+自由基阳离子，根据Choong等人开发的方法。此外，Price等人描述的细胞毒性试验先用健康的人类细胞系进行，然后用人类恶性细胞系(HEP-2, A549)进行。结果:所有合成的查尔酮均能降低ABTS。+自由基阳离子。苯并咪唑类化合物WAC1、U1和U2的还原率分别为39.61%、66.09%和84.20%，其抗氧化效果分别是化合物R(6.14%)的6倍、11倍和14倍。因此，咪唑吡啶查尔酮化合物V1、V2和V3降低了ABTS。+自由基阳离子的活性分别为91.62%、99.84%和97.45%，是化合物r的15倍和16倍。在细胞毒性方面，V2对HEP-2恶性细胞的抑制作用为48.64%，而标准品阿霉素对HEP-2恶性细胞的抑制作用为42.37%。WAC1对A549恶性细胞的生长抑制率为89.53%，明显高于阿霉素的71.58%。结论:α， β-不饱和羰基体系(或1,3-二苯丙烯)与苯并咪唑或咪唑吡啶杂环的存在可能有助于这些化合物的细胞毒性和抗氧化活性。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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Pharmacology & Pharmacy

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