Townsley Samantha, Mohamed Zeinab, Guo Wenjin, McKenna Jennifer, Cleveland Brad, LaBranche Celia, Beaumont David, Shen Xiaoying, Yates Nicole L, Pinter Abraham, Tomaras Georgia D, Ferrari Guido, Montefiori David C, Hu Shiu-Lok
Department of Microbiology, University of Washington, Seattle, Washington, USA.
Washington National Primate Research Center, Seattle, Washington, USA.
J Virol. 2016 Sep 12;90(19):8644-60. doi: 10.1128/JVI.00853-16. Print 2016 Oct 1.
Poxvirus prime-protein boost used in the RV144 trial remains the only immunization strategy shown to elicit a modest level of protection against HIV-1 acquisition in humans. Although neutralizing antibodies (NAb) were generated, they were against sensitive viruses, not the more resistant "tier 2" isolates that dominate circulating strains. Instead, risk reduction correlated with antibodies recognizing epitopes in the V1/V2 region of HIV-1 envelope glycoprotein (Env). Here, we examined whether tier 2 virus NAb and V1/V2-specific non-NAb could be elicited by a poxvirus prime-gp120 boost strategy in a rabbit model. We studied two clade B Envs that differ in multiple parameters, including tissue origin, neutralization sensitivity, and presence of the N197 (N7) glycan that was previously shown to modulate the exposure of conserved epitopes on Env. We demonstrate that immunized rabbits generated cross-reactive neutralizing activities against >50% of the tier 2 global HIV-1 isolates tested. Some of these activities were directed against the CD4 binding site (CD4bs). These rabbits also generated antibodies that recognized protein scaffolds bearing V1/V2 sequences from diverse HIV-1 isolates and mediated antibody-dependent cellular cytotoxicity. However, there are subtle differences in the specificities and the response rates of V1/V2-specific antibodies between animals immunized with different Envs, with or without the N7 glycan. These findings demonstrate that antibody responses that have been correlated with protection against HIV-1 acquisition in humans can be elicited in a preclinical model by a poxvirus prime-gp120 boost strategy and that improvements may be achievable by optimizing the nature of the priming and boosting immunogens.
The only vaccine approach shown to elicit any protective efficacy against HIV-1 acquisition is based on a poxvirus prime-protein boost regimen (RV144 Thai trial). Reduction of risk was associated with nonneutralizing antibodies targeting the V1/V2 loops of the envelope protein gp120. However, the modest efficacy (31.2%) achieved in this trial highlights the need to examine approaches and factors that may improve vaccine-induced responses, including cross-reactive neutralizing activities. We show here that rabbits immunized with a novel recombinant vaccinia virus prime-gp120 protein boost regimen generated antibodies that recognize protein scaffolds bearing V1/V2 sequences from diverse HIV-1 isolates and mediated antibody-dependent cellular cytotoxicity. Importantly, immunized rabbits also showed neutralizing activities against heterologous tier 2 HIV-1 isolates. These findings may inform the design of prime-boost immunization approaches and help improve the protective efficacy of candidate HIV-1 vaccines.
RV144试验中使用的痘病毒初免-蛋白加强免疫策略仍然是唯一一种在人体中显示出能引发适度水平的针对HIV-1感染保护作用的免疫策略。虽然产生了中和抗体(NAb),但它们针对的是敏感病毒,而非占主导的循环毒株中更具抗性的“2级”分离株。相反,风险降低与识别HIV-1包膜糖蛋白(Env)V1/V2区域表位的抗体相关。在此,我们研究了在兔模型中痘病毒初免-gp120加强免疫策略是否能引发2级病毒中和抗体及V1/V2特异性非中和抗体。我们研究了两种B亚型Env,它们在多个参数上存在差异,包括组织来源、中和敏感性以及先前显示可调节Env上保守表位暴露的N197(N7)聚糖的存在情况。我们证明,免疫的兔子对超过50%的测试2级全球HIV-1分离株产生了交叉反应性中和活性。其中一些活性针对CD4结合位点(CD4bs)。这些兔子还产生了能识别带有来自不同HIV-1分离株V1/V2序列的蛋白支架并介导抗体依赖性细胞毒性的抗体。然而,在用不同Env免疫的动物中,无论有无N7聚糖,V1/V2特异性抗体在特异性和反应率上存在细微差异。这些发现表明,在临床前模型中,通过痘病毒初免-gp120加强免疫策略可引发与人体中针对HIV-1感染保护作用相关的抗体反应,并且通过优化初免和加强免疫原的性质可能实现改进。
唯一一种显示出对HIV-1感染有任何保护效力的疫苗方法是基于痘病毒初免-蛋白加强免疫方案(泰国RV144试验)。风险降低与靶向包膜蛋白gp120的V1/V2环的非中和抗体相关。然而,该试验中实现的适度效力(31.2%)凸显了研究可能改善疫苗诱导反应的方法和因素的必要性,包括交叉反应性中和活性。我们在此表明,用新型重组痘苗病毒初免-gp120蛋白加强免疫方案免疫的兔子产生了能识别带有来自不同HIV-1分离株V1/V2序列的蛋白支架并介导抗体依赖性细胞毒性的抗体。重要的是,免疫的兔子还对异源2级HIV-1分离株表现出中和活性。这些发现可能为初免-加强免疫方法的设计提供信息,并有助于提高候选HIV-1疫苗的保护效力。
