前药
化学
阿扎那韦
二肽
生物利用度
药代动力学
药理学
口服
HIV-1蛋白酶
氨基酸
药品
蛋白酶
蛋白酶抑制剂(药理学)
酶
人类免疫缺陷病毒(HIV)
生物化学
抗逆转录病毒疗法
医学
家庭医学
病毒载量
作者
Murugaiah A. M. Subbaiah,Sandhya Mandlekar,Sridhar Desikan,Thangeswaran Ramar,Lakshumanan Subramani,Mathiazhagan Annadurai,Salil D. Desai,Sarmistha Halder Sinha,Susan M. Jenkins,Mark Krystal,Murali Subramanian,Srikanth Sridhar,Shweta Padmanabhan,Priyadeep Bhutani,Rambabu Arla,Shashyendra Singh,Jaydeep Sinha,Megha Thakur,John F. Kadow,Nicholas A. Meanwell
标识
DOI:10.1021/acs.jmedchem.9b00002
摘要
Phosphate and amino acid prodrugs of the HIV-1 protease inhibitor (PI) atazanavir (1) were prepared and evaluated to address solubility and absorption limitations. While the phosphate prodrug failed to release 1 in rats, the introduction of a methylene spacer facilitated prodrug activation, but parent exposure was lower than that following direct administration of 1. Val amino acid and Val-Val dipeptides imparted low plasma exposure of the parent, although the exposure of the prodrugs was high, reflecting good absorption. Screening of additional amino acids resulted in the identification of an l-Phe ester that offered an improved exposure of 1 and reduced levels of the circulating prodrug. Further molecular editing focusing on the linker design culminated in the discovery of the self-immolative l-Phe-Sar dipeptide derivative 74 that gave four-fold improved AUC and eight-fold higher Ctrough values of 1 compared with oral administration of the drug itself, demonstrating a successful prodrug approach to the oral delivery of 1.
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