Synthesis, In-vitro Antimalarial Activity and In silico Molecular Docking Study of Amino Chalcone Derivatives from 1-(2-aminophenyl)-3-(4- substituted-phenyl) prop-2-en-1-one and Dihydroquinolone Derivatives

A. Mulula, Abdeldjalil Bouzina, Joachim Nsomue, Hugues Mambu, Milka Tshingamb, A. Zaki
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Abstract

Background: Malaria is one of the major global health problems in developing countries and faced to the increased resistance of Plasmodium falciparum against existing malarial agents, it is important to look for new antimalarial compounds that will be active in multiple stage of Plasmodium falciparum's life cycle. Objective: The goal of this work was to synthesize Amino Chalcone derivatives and Dihydroquinolone derivatives, then evaluate their antimalarial activity by standard computational and biological methods. Methods: These amino chalcones were synthesized by the ClaisenSchmidt condensation and by intramolecular cyclization of substituted amino chalcones for the Dihydroquinolones derivatives. Their structures have been determined by NMR (H and C). The in-vitro antimalarial assays were carried out by using the maturation test of trophozoites into schizonts. The molecular docking of these compounds was performed by AutoDock vina program using Plasmodium falciparum dihydrofolate reductase-thymidylate synthase (PfDHFR-TS) (PDB ID 1J3I) as target protein. Results: All synthesized amino chalcones and dihydroquinolone derivatives were active against Fresh clinical isolates of Plasmodium falciparum with a range of EC50 ranging from 1.56 to 25μg/mL. However, the 2phenyl-2, 3-dihydroquinolin-4-(1H)-one (DHQ 2) and 2(4-methoxyphenyl)-2, 3-dihydroquinolin-4-(1H)-one (DHQ 4) showed excellent antimalarial activity with IC50 of 3.125 and 1.56 μg/mL, respectively. Whereas the IC50 of Chloroquine use as reference was 1.56μg/mL. Based on absorption, distribution, metabolism and excretion (ADME) properties, all synthetized compounds satisfied the Lipinski rule. Conclusion: The results suggest that these synthesized compounds (DHQ 2 and DHQ 4), could be used, after in vivo and clinical tests, like antimalarial supplement or even replace current drug therapies.
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1-(2-氨基苯基)-3-(4-取代苯基)- 2-烯-酮和二氢喹诺酮类氨基查尔酮衍生物的合成、体外抗疟活性及硅分子对接研究
背景:疟疾是发展中国家主要的全球性卫生问题之一,面对恶性疟原虫对现有疟疾药物耐药性的增强,寻找在恶性疟原虫生命周期多个阶段都有活性的新型抗疟化合物具有重要意义。目的:合成氨基查尔酮衍生物和二氢喹诺酮衍生物,并用标准计算方法和生物学方法评价其抗疟活性。方法:采用claisen - schmidt缩合法和取代氨基查尔酮的分子内环化法合成这些氨基查尔酮。通过核磁共振(H)和核磁共振(C)测定了它们的结构。利用滋养体成熟成分裂体的方法进行了体外抗疟试验。以恶性疟原虫二氢叶酸还原酶-胸苷酸合成酶(PfDHFR-TS) (PDB ID 1J3I)为靶蛋白,通过AutoDock vina程序对这些化合物进行分子对接。结果:所有合成的氨基查尔酮类和二氢喹诺酮类衍生物对新鲜临床分离的恶性疟原虫均有活性,EC50范围为1.56 ~ 25μg/mL。而2苯基- 2,3 -二氢喹啉-4-(1H)-one (DHQ 2)和2(4-甲氧基苯基)- 2,3 -二氢喹啉-4-(1H)-one (DHQ 4)具有较好的抗疟活性,IC50分别为3.125和1.56 μg/mL。氯喹作为对照的IC50为1.56μg/mL。合成化合物的吸收、分布、代谢和排泄(ADME)性能均符合利平斯基规则。结论:合成的dhq2和dhq2经过体内和临床试验,可作为抗疟药物的补充甚至替代药物治疗。
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