Ketas Thomas J, Schader Susan M, Zurita Juan, Teo Esther, Polonis Victoria, Lu Min, Klasse Per Johan, Moore John P
Dept of Microbiology and Immunology, Weill Medical College of Cornell University, New York, NY 10021, USA.
Virology. 2007 Aug 1;364(2):431-40. doi: 10.1016/j.virol.2007.03.001. Epub 2007 Apr 10.
Inhibitors of viral entry are under consideration as topical microbicides to prevent HIV-1 sexual transmission. Small molecules targeting HIV-1 gp120 (BMS-378806) or CCR5 (CMPD167), and a peptide fusion inhibitor (C52L), each blocks vaginal infection of macaques by a SHIV. A microbicide, however, must be active against multiple HIV-1 variants. We therefore tested BMS-C (a BMS-378806 derivative), CMPD167, C52L and the CXCR4 ligand AMD3465, alone and in combination, against 25 primary R5, 12 X4 and 7 R5X4 isolates from subtypes A-G. At high concentrations (0.1-1 microM), the replication of most R5 isolates in human donor lymphocytes was inhibited by >90%. At lower concentrations, double and triple combinations were more effective than individual inhibitors. Similar results were obtained with X4 viruses when AMD3465 was substituted for CMPD167. The R5X4 viruses were inhibited by combining AMD3465 with CMPD167, or by the coreceptor-independent compounds. Thus, combining entry inhibitors may improve microbicide effectiveness.
病毒进入抑制剂正在被考虑用作局部杀菌剂以预防HIV-1的性传播。靶向HIV-1 gp120的小分子(BMS-378806)或CCR5的小分子(CMPD167),以及一种肽融合抑制剂(C52L),均可阻断猿猴免疫缺陷病毒对猕猴的阴道感染。然而,一种杀菌剂必须对多种HIV-1变体具有活性。因此,我们单独或联合测试了BMS-C(一种BMS-378806衍生物)、CMPD167、C52L和CXCR4配体AMD3465对来自A-G亚型的25种原发性R5、12种X4和7种R5X4分离株的作用。在高浓度(0.1-1 microM)下,大多数R5分离株在人供体淋巴细胞中的复制被抑制>90%。在较低浓度下,双重和三重组合比单一抑制剂更有效。当用AMD3465替代CMPD167时,对X4病毒也获得了类似结果。R5X4病毒通过将AMD3465与CMPD167联合使用或通过不依赖共受体的化合物而受到抑制。因此,联合使用进入抑制剂可能会提高杀菌剂的有效性。
