Habashita Hiromu, Kokubo Masaya, Hamano Shin-ichi, Hamanaka Nobuyuki, Toda Masaaki, Shibayama Shiro, Tada Hideaki, Sagawa Kenji, Fukushima Daikichi, Maeda Kenji, Mitsuya Hiroaki
Medicinal Chemistry Research Laboratories, Ono Pharmaceutical Co., Ltd., Osaka 618-8585, Japan.
J Med Chem. 2006 Jul 13;49(14):4140-52. doi: 10.1021/jm060051s.
We previously reported the discovery of several spirodiketopiperazine derivatives as potent CCR5 antagonists with anti-HIV activity. Herein, we describe in detail the identification of these lead compounds using a combinatorial chemistry approach. A novel spirodiketopiperazine scaffold was designed on the basis of the concept of the privileged structure of G-protein-coupled receptors (GPCRs). This new framework was obtained in acceptable yield with high purity from the readily prepared isonitrile resin through the Ugi reaction, sequential transformations, and cyclative cleavage. By measuring the inhibitory activity of each compound in the initial library against the intracellular calcium mobilization stimulated by MIP-1alpha, several compounds were found to show modest but selective CCR5 antagonistic activity. After the rapid evaluation of these hit compounds, several single-digit nanomolar, low-molecular-weight CCR5 antagonists that can potently block the infectivity and replication of laboratory and clinical strains of HIV as well as those of highly drug-resistant HIV variants with minimal cytotoxicity have been identified.
我们之前报道了发现几种具有抗HIV活性的强效CCR5拮抗剂的螺二酮哌嗪衍生物。在此,我们详细描述了使用组合化学方法鉴定这些先导化合物的过程。基于G蛋白偶联受体(GPCRs)的特权结构概念设计了一种新型螺二酮哌嗪支架。通过Ugi反应、连续转化和环化裂解,从易于制备的异腈树脂中以可接受的产率和高纯度获得了这个新框架。通过测量初始文库中每种化合物对MIP-1α刺激的细胞内钙动员的抑制活性,发现几种化合物表现出适度但选择性的CCR5拮抗活性。在对这些命中化合物进行快速评估后,已鉴定出几种个位数纳摩尔的低分子量CCR5拮抗剂,它们能够有效阻断HIV实验室和临床菌株以及具有最小细胞毒性的高度耐药HIV变体的感染性和复制。
