Verrier F, Borman A M, Brand D, Girard M
Unité de Virologie Moléculaire (CNRS URA 1966), Département de Virologie, Institut Pasteur, Paris, France.
AIDS Res Hum Retroviruses. 1999 May 20;15(8):731-43. doi: 10.1089/088922299310827.
Macrophage (M)-tropic HIV-1 isolates use the beta-chemokine receptor CCR5 as a coreceptor for entry, while T cell line-adapted (TCLA) strains use CXCR4 and dual-tropic strains can use either CCR5 or CXCR4. To investigate the viral determinants involved in choice of coreceptor, we used a fusion assay based on the infection of CD4+ HeLa cells that express one or both coreceptors with Semliki Forest virus (SFV) recombinants expressing the native HIV-1 gp160 of a primary M-tropic isolate (HIV-1BX08), a TCLA isolate (HIV-1LAI), or a dual-tropic strain (HIV-1MN). We examined whether the V3 region of these glycoproteins interacts directly with the corresponding coreceptors by assaying coreceptor-dependent cell-to-cell fusion mediated by the different recombinants in the presence of various synthetic linear peptides. Synthetic peptides corresponding to different V3 loop sequences blocked syncytium formation in a coreceptor-specific manner. Synthetic V2 peptides were also inhibitory for syncytium formation, but showed no apparent coreceptor specificity. A BX08 V3 peptide with a D320 --> R substitution retained no inhibitory capacity for BX08 Env-mediated cell-to-cell fusion, but inhibited LAI Env-mediated fusion as efficiently as the homologous LAI V3 peptide. The same mutation engineered in the BX08 env gene rendered it able to form syncytia on CD4+CXCR4+CCR5-HeLa cells and susceptible to inhibition by SDF-1alpha and MIP-1beta. Other substitutions tested (D320 --> Q/D324 --> N or S306 --> R) exhibited intermediate effects on coreceptor usage. These results underscore the importance of the V3 loop in modulating coreceptor choice and show that single amino acid modifications in V3 can dramatically modify coreceptor usage. Moreover, they provide evidence that linear V3 loop peptides can compete with intact cell surface-expressed gp120/gp41 for CCR5 or CXCR4 interaction.
巨噬细胞(M)嗜性的HIV-1分离株利用β趋化因子受体CCR5作为进入的共受体,而T细胞系适应株(TCLA)利用CXCR4,双嗜性毒株则可利用CCR5或CXCR4。为了研究参与共受体选择的病毒决定因素,我们使用了一种融合试验,该试验基于用表达原发性M嗜性分离株(HIV-1 BX08)、TCLA分离株(HIV-1 LAI)或双嗜性毒株(HIV-1 MN)天然HIV-1 gp160的辛德毕斯病毒(SFV)重组体感染表达一种或两种共受体的CD4⁺HeLa细胞。我们通过在各种合成线性肽存在的情况下检测不同重组体介导的共受体依赖性细胞间融合,来研究这些糖蛋白的V3区是否直接与相应的共受体相互作用。对应于不同V3环序列的合成肽以共受体特异性方式阻断了合胞体形成。合成的V2肽也抑制合胞体形成,但没有明显的共受体特异性。具有D320→R替代的BX08 V3肽对BXEnv介导的细胞间融合没有抑制能力,但对LAI Env介导的融合的抑制效率与同源LAI V3肽相同。在BX08 env基因中进行的相同突变使其能够在CD4⁺CXCR4⁺CCR5⁻HeLa细胞上形成合胞体,并易受SDF-1α和MIP-1β的抑制。测试的其他替代(D320→Q/D324→N或S306→R)对共受体使用表现出中等影响。这些结果强调了V3环在调节共受体选择中的重要性,并表明V3中的单个氨基酸修饰可显著改变共受体使用。此外,它们提供了证据表明线性V3环肽可以与完整的细胞表面表达的gp120/gp41竞争CCR5或CXCR4相互作用。
