Davis Katie L, Bibollet-Ruche Frederic, Li Hui, Decker Julie M, Kutsch Olaf, Morris Lynn, Salomon Aidy, Pinter Abraham, Hoxie James A, Hahn Beatrice H, Kwong Peter D, Shaw George M
Department of Microbiology, University of Alabama at Birmingham, 720 20th Street South, Kaul 816, Birmingham, AL 35294, USA.
J Virol. 2009 Feb;83(3):1240-59. doi: 10.1128/JVI.01743-08. Epub 2008 Nov 19.
Deciphering antibody specificities that constrain human immunodeficiency virus type 1 (HIV-1) envelope (Env) diversity, limit virus replication, and contribute to neutralization breadth and potency is an important goal of current HIV/AIDS vaccine research. Transplantation of discrete HIV-1 neutralizing epitopes into HIV-2 scaffolds may provide a sensitive, biologically functional context by which to quantify specific antibody reactivities even in complex sera. Here, we describe a novel HIV-2 proviral scaffold (pHIV-2(KR.X7)) into which we substituted the complete variable region 3 (V3) of the env gene of HIV-1(YU2) or HIV-1(Ccon) to yield the chimeric proviruses pHIV-2(KR.X7) YU2 V3 and pHIV-2(KR.X7) Ccon V3. These HIV-2/HIV-1 chimeras were replication competent and sensitive to selective pharmacological inhibitors of virus entry. V3 chimeric viruses were resistant to neutralization by HIV-1 monoclonal antibodies directed against the CD4 binding site, coreceptor binding site, and gp41 membrane proximal external region but exhibited striking sensitivity to HIV-1 V3-specific monoclonal antibodies, 447-52D and F425 B4e8 (50% inhibitory concentration of [IC(50)] <0.005 microg/ml for each). Plasma specimens from 11 HIV-1 clade B- and 10 HIV-1 clade C-infected subjects showed no neutralizing activity against HIV-2 but exhibited high-titer V3-specific neutralization against both HIV-2/HIV-1 V3 chimeras with IC(50) measurements ranging from 1:50 to greater than 1:40,000. Neutralization titers of B clade plasmas were as much as 1,000-fold lower when tested against the primary HIV-1(YU2) virus than with the HIV-2(KR.X7) YU2 V3 chimera, demonstrating highly effective shielding of V3 epitopes in the native Env trimer. This finding was replicated using a second primary HIV-1 strain (HIV-1(BORI)) and the corresponding HIV-2(KR.X7) BORI V3 chimera. We conclude that V3 is highly immunogenic in vivo, eliciting antibodies with substantial breadth of reactivity and neutralizing potential. These antibodies constrain HIV-1 Env to a structure(s) in which V3 epitopes are concealed prior to CD4 engagement but do not otherwise contribute to neutralization breadth and potency against most primary virus strains. Triggering of the viral spike to reveal V3 epitopes may be required if V3 immunogens are to be components of an effective HIV-1 vaccine.
解析限制人类免疫缺陷病毒1型(HIV-1)包膜(Env)多样性、限制病毒复制并有助于中和广度和效力的抗体特异性,是当前HIV/AIDS疫苗研究的一个重要目标。将离散的HIV-1中和表位移植到HIV-2支架中,可能会提供一个敏感的、具有生物学功能的环境,借此即使在复杂血清中也能定量特定抗体反应性。在此,我们描述了一种新型的HIV-2前病毒支架(pHIV-2(KR.X7)),我们将HIV-1(YU2)或HIV-1(Ccon)包膜基因的完整可变区3(V3)替换到该支架中,以产生嵌合前病毒pHIV-2(KR.X7) YU2 V3和pHIV-2(KR.X7) Ccon V3。这些HIV-2/HIV-1嵌合体具有复制能力,并且对病毒进入的选择性药理抑制剂敏感。V3嵌合病毒对针对CD4结合位点、共受体结合位点和gp41膜近端外部区域的HIV-1单克隆抗体的中和作用具有抗性,但对HIV-1 V3特异性单克隆抗体447-52D和F425 B4e8表现出显著敏感性(每种抗体的50%抑制浓度[IC(50)]<0.005μg/ml)。来自11名感染HIV-1 B亚型和10名感染HIV-1 C亚型受试者的血浆样本对HIV-2没有中和活性,但对两种HIV-2/HIV-1 V3嵌合体均表现出高滴度的V3特异性中和作用,IC(50)测量值范围为1:50至大于1:40,000。当针对原始HIV-1(YU2)病毒进行测试时,B亚型血浆的中和滴度比针对HIV-2(KR.X7) YU2 V3嵌合体时低多达1000倍,这表明天然Env三聚体中V3表位得到了高效屏蔽。使用第二种原始HIV-1毒株(HIV-1(BORI))和相应的HIV-2(KR.X7) BORI V3嵌合体重复了这一发现。我们得出结论,V3在体内具有高度免疫原性,可引发具有广泛反应性和中和潜力的抗体。这些抗体将HIV-1 Env限制在一种结构中,在CD4结合之前V3表位被隐藏,但对大多数原始病毒株的中和广度和效力没有其他贡献。如果V3免疫原要成为有效的HIV-1疫苗的组成部分,可能需要触发病毒刺突以暴露V3表位。
