Aminoalkoxycarbonyloxymethyl Ether Prodrugs with a pH-Triggered Release Mechanism: A Case Study Improving the Solubility, Bioavailability, and Efficacy of Antimalarial 4(1H)-Quinolones with Single Dose Cures

Monastyrskyi Andrii; Brockmeyer Fabian; LaCrue Alexis N.; Zhao Yingzhao; Maher Steven P.; Maignan Jordany R.; Padin-Irizarry Vivian; Sakhno Yana I; Parvatkar Prakash T.; Asakawa Ami H.; Huang Lili; Casandra Debora; Mashkouri Sherwin; Kyle Dennis E.; Manetsch Roman

首页> 外文期刊>Journal of Medicinal Chemistry >Aminoalkoxycarbonyloxymethyl Ether Prodrugs with a pH-Triggered Release Mechanism: A Case Study Improving the Solubility, Bioavailability, and Efficacy of Antimalarial 4(1H)-Quinolones with Single Dose Cures

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Aminoalkoxycarbonyloxymethyl Ether Prodrugs with a pH-Triggered Release Mechanism: A Case Study Improving the Solubility, Bioavailability, and Efficacy of Antimalarial 4(1H)-Quinolones with Single Dose Cures

机译：具有pH-触发的释放机制的氨基烷氧基羰基氧基甲氧基醚前药

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Preclinical and clinical development of numerous small molecules is prevented by their poor aqueous solubility, limited absorption, and oral bioavailability. Herein, we disclose a general prodrug approach that converts promising lead compounds into aminoalkoxycarbonyloxymethyl (amino AOCOM) ether-substituted analogues that display significantly improved aqueous solubility and enhanced oral bioavailability, restoring key requirements typical for drug candidate profiles. The prodrug is completely independent of biotransformations and animal-independent because it becomes an active compound via a pH-triggered intramolecular cyclization-elimination reaction. As a proof-of-concept, the utility of this novel amino AOCOM ether prodrug approach was demonstrated on an antimalarial compound series representing a variety of antimalarial 4(1H)-quinolones, which entered and failed preclinical development over the last decade. With the amino AOCOM ether prodrug moiety, the 3-aryl-4(1H)-quinolone preclinical candidate was shown to provide single-dose cures in a rodent malaria model at an oral dose of 3 mg/kg, without the use of an advanced formulation technique.

机译：许多小分子的水溶性差、吸收有限和口服生物利用度差，阻碍了其临床前和临床发展。在此，我们公开了一种通用的前药方法，该方法将有希望的先导化合物转化为氨基烷氧基羰基甲基（氨基AOCOM）醚取代的类似物，其水溶性显著改善，口服生物利用度增强，恢复了候选药物特征的典型关键要求。前药完全不依赖于生物转化，也不依赖于动物，因为它通过pH触发的分子内环化消除反应成为活性化合物。作为概念证明，这种新型氨基AOCOM醚前药方法的效用已在代表多种抗疟4（1H）-喹诺酮类药物的抗疟化合物系列上得到证明，这些药物在过去十年中进入临床前开发并失败。使用氨基AOCOM醚前药部分，3-芳基-4（1H）-喹诺酮类临床前候选药物在啮齿动物疟疾模型中以3 mg/kg的口服剂量提供单剂量治疗，无需使用先进的配方技术。

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《Journal of Medicinal Chemistry 》 |2021年第10期| 共15页
作者
Monastyrskyi Andrii; Brockmeyer Fabian; LaCrue Alexis N.; Zhao Yingzhao; Maher Steven P.; Maignan Jordany R.; Padin-Irizarry Vivian; Sakhno Yana I; Parvatkar Prakash T.; Asakawa Ami H.; Huang Lili; Casandra Debora; Mashkouri Sherwin; Kyle Dennis E.; Manetsch Roman;
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作者单位

Univ S Florida Dept Chem Tampa FL 33620 USA;

Northeastern Univ Dept Chem &

Chem Biol Boston MA 02115 USA;

Univ S Florida Coll Publ Hlth Dept Global Hlth Tampa FL 33612 USA;

Northeastern Univ Dept Chem &

Chem Biol Boston MA 02115 USA;

Univ Georgia Ctr Trop &

Emerging Global Dis Athens GA 30602 USA;

Univ S Florida Dept Chem Tampa FL 33620 USA;

Univ Georgia Ctr Trop &

Emerging Global Dis Athens GA 30602 USA;

Univ S Florida Dept Chem Tampa FL 33620 USA;

Northeastern Univ Dept Chem &

Chem Biol Boston MA 02115 USA;

Northeastern Univ Dept Pharmaceut Sci Boston MA 02115 USA;

Northeastern Univ Dept Chem &

Chem Biol Boston MA 02115 USA;

Univ S Florida Coll Publ Hlth Dept Global Hlth Tampa FL 33612 USA;

Univ S Florida Coll Publ Hlth Dept Global Hlth Tampa FL 33612 USA;

Univ S Florida Coll Publ Hlth Dept Global Hlth Tampa FL 33612 USA;

Univ S Florida Dept Chem Tampa FL 33620 USA;

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正文语种 eng
中图分类药学 ;
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机译：合成和评估3-芳基-4（1H）-喹诺酮类药物作为口服活性抗疟药：克服溶解性，代谢和生物利用度方面的挑战。
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机译：具有pH-触发的释放机制的氨基烷氧基羰基氧基甲氧基醚前药：一种情况研究改善了单剂量固化的溶解性生物利用度，抗疟疾4（1H）喹诺酮类的疗效

Aminoalkoxycarbonyloxymethyl Ether Prodrugs with a pH-Triggered Release Mechanism: A Case Study Improving the Solubility, Bioavailability, and Efficacy of Antimalarial 4(1H)-Quinolones with Single Dose Cures

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