Synthesis, antimalarial activity and inhibition of haem detoxification of novel bisquinolines.

Ayad F; Tilley L; Deady LW

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Synthesis, antimalarial activity and inhibition of haem detoxification of novel bisquinolines.

机译：新型双喹啉的合成，抗疟活性和血红素解毒抑制作用。

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The synthesis of novel bisquinoline compounds comprising 4-(4-diethylamino-1-methylbutyl)aminoquinoline units joined through the 2-position by a (CH(2))(n) linker is described. Their ability to inhibit the growth of both chloroquine-sensitive (D10) and chloroquine-resistant (K1) strains of Plasmodium falciparum, the hydrogen peroxide-mediated pathway for decomposition of haem, and the conversion of haem to beta-haematin have been measured. The activity was affected by the length of the linker and the most active (6c, n=12) showed effects similar to chloroquine in three of the assays. However, it was even more active against the resistant strain [IC(50), 17 nM (K1); 43 nM (D10)], much superior to chloroquine (IC(50), 540 nM) and slightly better than mefloquine (IC(50), 30 nM) in this regard.

机译：描述了新颖的双喹啉化合物的合成，该化合物包括通过（CH（2））（n）接头通过2位连接的4-（4-二乙基氨基-1-甲基丁基）氨基喹啉单元。已经测量了它们抑制恶性疟原虫的氯喹敏感性（D10）和耐氯喹（K1）菌株，过氧化氢介导的血红素分解途径以及血红素向β-血红素转化的抑制能力。活性受接头长度的影响，其中最活跃的化合物（6c，n = 12）在三种测定中显示出与氯喹相似的效果。但是，它对抗性菌株更具活性[IC（50），17 nM（K1）; 43 nM（D10）]在这方面要远远优于氯喹（IC（50），540 nM），稍好于甲氟喹（IC（50），30 nM）。

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《Bioorganic and Medicinal Chemistry Letters》 |2001年第16期|共3页
作者
Ayad F; Tilley L; Deady LW;
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正文语种 eng
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关键词
Antimalarials; Quinolines; Chloroquine; 抗疟药; 喹啉类;

机译：Antimalarials;Quinolines;Chloroquine;抗疟药;喹啉类;

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1. Synthesis, antimalarial activity and inhibition of haem detoxification of novel bisquinolines. [J] . Ayad F, Tilley L, Deady LW Bioorganic and Medicinal Chemistry Letters . 2001,第16期

机译：新型双喹啉的合成，抗疟活性和血红素解毒抑制作用。
2. Pharmacophore-based predictive model generation for potent antimalarials targeting haem detoxification pathway [J] . Badri Narayan Acharya, Mahabir Parshad Kaushik Medicinal Chemistry Research . 2007,第5期

机译：基于药理学的预测模型产生针对血红素排毒途径的有效抗疟药
3. Inhibition of heme detoxification processes underlies the antimalarial activity of terpene isonitrile compounds from marine sponges. [J] . Wright AD, Wang H, Gurrath M, Journal of Medicinal Chemistry . 2001,第6期

机译：抑制血红素解毒过程是海洋海绵中萜烯异腈化合物抗疟疾活性的基础。
4. Heme Polymerization Inhibition Activity (HPIA) Assay of Synthesized Xanthone Derivative as Antimalarial Compound [C] . Dhina Fitriastuti, Jumina, Priatmoko International Conference on Chemistry, Chemical Process and Engineering . 2017

机译：血红素聚合抑制活性（HPIA）衍生物作为抗体化合物的合成X原酮衍生物测定
5. New ruthenium (II)-chloroquine complexes and metal-free aminoquinolines: Synthesis, antimalarial activity and mechanism of biological action. [D] . Rajapakse, Chandima Shashikala Kumari. 2010

机译：新的钌（II）-氯喹配合物和不含金属的氨基喹啉：合成，抗疟活性和生物作用机理。
6. Mechanism of malarial haem detoxification inhibition by chloroquine. [O] . A V Pandey, H Bisht, V K Babbarwal, 2001

机译：氯喹抑制疟疾血红素的解毒机理。
7. Mechanism of malarial haem detoxification inhibition by chloroquine. [O] . Pandey A V, Bisht H, Babbarwal V K, 2001

机译：氯喹抑制疟疾血红素的解毒机理。
8. Drug Development of the Antimalarial Agent Artemisinin: Total Synthesis, AnalogSynthesis, and Structure-Activity Relationship Studies [R] . Avery, M. A. 1990

机译：抗疟药青蒿素的药物开发：全合成，类似合成和结构 - 活性关系研究

Synthesis, antimalarial activity and inhibition of haem detoxification of novel bisquinolines.

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