New water-soluble prodrugs of HIV protease inhibitors based on O-->N intramolecular acyl migration |
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Authors: | Hamada Yoshio Ohtake Jun Sohma Youhei Kimura Tooru Hayashi Yoshio Kiso Yoshiaki |
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Institution: | Department of Medicinal Chemistry, Center for Frontier Research in Medicinal Science, Kyoto Pharmaceutical University, Yamashina-Ku, Kyoto 607-8412, Japan |
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Abstract: | To improve the low water-solubility of HIV protease inhibitors, we synthesized water-soluble prodrugs of KNI-272 and KNI-279 which are potent HIV-1 protease inhibitors consisting of an Apns–Thz core structure (Apns; allophenylnorstatine, Thz; thiazolidine-4-carboxylic acid) as an inhibitory machinery. The prodrugs, which contained an O-acyl peptidomimetic structure with an ionized amino group leading to the increase of water-solubility, were designed to regenerate the corresponding parent drugs based on the O→N intramolecular acyl migration reaction at the -hydroxy-β-amino acid residue, that is allophenylnorstatine. The synthetic prodrugs 3, 4, 6, and 7 improved the water-solubility (>300 mg/mL) more than 4000-fold in comparison with the parent compounds, which is the practically acceptable value as water-soluble drugs. These prodrugs were stable as an HCl salt and in a strongly acidic solution corresponding to gastric juice (pH 2.0), and could be converted to the parent compounds promptly in the aqueous condition from slightly acidic to basic pH at 37 °C, with the suitable migration rate, via a five-membered ring intermediate. Using a similar method, we synthesized a prodrug (12) of ritonavir, a clinically useful HIV-1 protease inhibitor as an anti-AIDS drug. In contrast to the prodrugs 3, 4, 6, and 7, the prodrug 12 was very slowly converted to ritonavir probably through a six-membered ring intermediate, with the t1/2 value of 32 h that may not be suitable for practical use. |
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