Heinrich Pette Institute, Leibniz Institute for Experimental Virology, Hamburg, Germany.
German Center for Infection Research (DZIF), Site Hamburg-Lübeck-Borstel-Riems, Germany.
J Virol. 2019 Sep 30;93(20). doi: 10.1128/JVI.00719-19. Print 2019 Oct 15.
Human immunodeficiency virus type 1 (HIV-1) has evolved elaborate ways to evade immune cell recognition, including downregulation of classical HLA class I (HLA-I) from the surfaces of infected cells. Recent evidence identified HLA-E, a nonclassical HLA-I, as an important part of the antiviral immune response to HIV-1. Changes in HLA-E surface levels and peptide presentation can prompt both CD8 T-cell and natural killer (NK) cell responses to viral infections. Previous studies reported unchanged or increased HLA-E levels on HIV-1-infected cells. Here, we examined HLA-E surface levels following infection of CD4 T cells with primary HIV-1 strains and observed that a subset downregulated HLA-E. Two primary strains of HIV-1 that induced the strongest reduction in surface HLA-E expression were chosen for further testing. Expression of single Nef or Vpu proteins in a T-cell line, as well as tail swap experiments exchanging the cytoplasmic tail of HLA-A2 with that of HLA-E, demonstrated that Nef modulated HLA-E surface levels and targeted the cytoplasmic tail of HLA-E. Furthermore, infection of primary CD4 T cells with HIV-1 mutants showed that a lack of functional Nef (and Vpu to some extent) impaired HLA-E downmodulation. Taken together, the results of this study demonstrate for the first time that HIV-1 can downregulate HLA-E surface levels on infected primary CD4 T cells, potentially rendering them less vulnerable to CD8 T-cell recognition but at increased risk of NKG2A NK cell killing. For almost two decades, it was thought that HIV-1 selectively downregulated the highly expressed HLA-I molecules HLA-A and HLA-B from the cell surface in order to evade cytotoxic-T-cell recognition, while leaving HLA-C and HLA-E molecules unaltered. It was stipulated that HIV-1 infection thereby maintained inhibition of NK cells via inhibitory receptors that bind HLA-C and HLA-E. This concept was recently revised when a study showed that primary HIV-1 strains reduce HLA-C surface levels, whereas the cell line-adapted HIV-1 strain NL4-3 lacks this ability. Here, we demonstrate that infection with distinct primary HIV-1 strains results in significant downregulation of surface HLA-E levels. Given the increasing evidence for HLA-E as an important modulator of CD8 T-cell and NKG2A NK cell functions, this finding has substantial implications for future immunomodulatory approaches aimed at harnessing cytotoxic cellular immunity against HIV.
人类免疫缺陷病毒 1 型(HIV-1)已经进化出了巧妙的方法来逃避免疫细胞的识别,包括下调感染细胞表面的经典 HLA Ⅰ类(HLA-I)。最近的证据表明,非经典 HLA-I HLA-E 是 HIV-1 抗病毒免疫反应的重要组成部分。HLA-E 表面水平和肽呈递的变化可以促使 CD8 T 细胞和自然杀伤(NK)细胞对病毒感染产生反应。先前的研究报告称,HIV-1 感染细胞的 HLA-E 水平不变或增加。在这里,我们研究了 CD4 T 细胞感染原发性 HIV-1 株后 HLA-E 表面水平,观察到亚群下调了 HLA-E。选择两种诱导 HLA-E 表面表达最强降低的原发性 HIV-1 株进行进一步测试。在 T 细胞系中表达单个 Nef 或 Vpu 蛋白,以及用 HLA-E 的细胞质尾巴交换 HLA-A2 的细胞质尾巴的尾巴交换实验表明,Nef 调节 HLA-E 表面水平并靶向 HLA-E 的细胞质尾巴。此外,用 HIV-1 突变体感染原代 CD4 T 细胞表明,缺乏功能性 Nef(在某种程度上还有 Vpu)会损害 HLA-E 的下调。总之,这项研究的结果首次表明,HIV-1 可以下调感染原代 CD4 T 细胞上的 HLA-E 表面水平,这可能使它们更不易被 CD8 T 细胞识别,但更易受到 NKG2A NK 细胞的杀伤。在过去的二十年中,人们认为 HIV-1 选择性地下调细胞表面上高度表达的 HLA-I 分子 HLA-A 和 HLA-B,以逃避细胞毒性 T 细胞的识别,而不改变 HLA-C 和 HLA-E 分子。据规定,HIV-1 感染通过结合 HLA-C 和 HLA-E 的抑制性受体从而维持对 NK 细胞的抑制。当一项研究表明原发性 HIV-1 株降低 HLA-C 表面水平,而细胞系适应的 HIV-1 株 NL4-3 缺乏这种能力时,这一概念最近得到了修订。在这里,我们证明感染不同的原发性 HIV-1 株会导致 HLA-E 表面水平显著下调。鉴于 HLA-E 作为 CD8 T 细胞和 NKG2A NK 细胞功能的重要调节剂的证据越来越多,这一发现对旨在利用细胞毒性细胞免疫对抗 HIV 的未来免疫调节方法具有重要意义。
