Alpaca-derived nanobody targeting the hydrophobic pocket of the HIV-1 gp41 NHR broadly neutralizes HIV-1 by blocking six-helix bundle formation

IF 4.8 Q1 MICROBIOLOGY Current Research in Microbial Sciences Pub Date : 2024-01-01 DOI:10.1016/j.crmicr.2024.100263

Lujia Sun , Bo Chen , Xianbo Liu , Yun Zhu , Guangxu Zhang , Xiaoxing Liang , Lixiao Xing , Wei Xu , Shibo Jiang , Xinling Wang

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Abstract

The highly conserved hydrophobic pocket region of HIV-1 gp41 NHR triple-stranded coiled coil is crucial for the binding of CHR to NHR to form a six-helix bundle (6-HB). This pocket is only exposed instantaneously during fusion, making it an ideal target for antibody drug design. However, IgG molecule is too big to enter the pocket during the fusion process. Therefore, to overcome the steric hindrance and kinetic obstacles caused by the formation of gp41 pre-hairpin fusion intermediate, we obtained nanobodies (Nbs) targeting NHR by immunizing alpaca with an NHR-trimer mimic. Specifically, we identified a Nb, Nb-172, that exhibited potent and broadly neutralizing activity against HIV-1 pseudoviruses, HIV-1 primary isolates, and T20-resistant HIV-1 strains. In addition, the combinatorial use of mD1.22 and Nb-172 exhibited synergism in inhibiting HIV-1 infection inactivating cell-free virions. Nb-172 can competitively bind to the hydrophobic pocket of gp41 NHR to inhibit 6-HB formation. These findings suggest that Nb-172 merits further investigation as a potential therapeutic for HIV-1 infection.

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针对 HIV-1 gp41 NHR 疏水袋的羊驼源性纳米抗体通过阻断六螺旋束的形成广泛中和 HIV-1

HIV-1 gp41 NHR 三股线圈中高度保守的疏水口袋区域对于 CHR 与 NHR 结合形成六螺旋束（6-HB）至关重要。这个口袋只在融合过程中瞬间暴露，因此是抗体药物设计的理想靶点。然而，IgG 分子太大，无法在融合过程中进入口袋。因此，为了克服gp41前发夹融合中间体形成时产生的立体阻碍和动力学障碍，我们用NHR三聚体模拟物免疫羊驼，获得了靶向NHR的纳米抗体（Nbs）。具体来说，我们发现了一种 Nb（Nb-172），它对 HIV-1 伪病毒、HIV-1 原始分离株和 T20 抗性 HIV-1 株具有强效和广泛的中和活性。此外，mD1.22 和 Nb-172 的组合使用在抑制 HIV-1 感染灭活无细胞病毒方面表现出协同作用。Nb-172 可与 gp41 NHR 的疏水口袋竞争性结合，抑制 6-HB 的形成。这些研究结果表明，Nb-172 作为一种治疗 HIV-1 感染的潜在药物值得进一步研究。

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