Department of Veterinary Biosciences, The Ohio State Universitygrid.261331.4, Columbus, Ohio, USA.
Department of Microbial Infection & Immunity, The Ohio State Universitygrid.261331.4, Columbus, Ohio, USA.
mBio. 2022 Feb 22;13(1):e0275221. doi: 10.1128/mbio.02752-21. Epub 2022 Jan 11.
Infection of rhesus macaques with simian-human immunodeficiency viruses (SHIVs) is the preferred model system for vaccine development because SHIVs encode human immunodeficiency virus type 1 (HIV-1) envelope glycoproteins (Envs)-a key target of HIV-1 neutralizing antibodies. Since the goal of vaccines is to prevent new infections, SHIVs encoding circulating HIV-1 Env are desired as challenge viruses. Development of such biologically relevant SHIVs has been challenging, as they fail to infect rhesus macaques, mainly because most circulating HIV-1 Envs do not use rhesus CD4 (rhCD4) receptor for viral entry. Most primary HIV-1 Envs exist in a closed conformation and occasionally transit to a downstream, open conformation through an obligate intermediate conformation. Here, we provide genetic evidence that open Env conformations can overcome the rhCD4 entry barrier and increase replication of SHIVs in rhesus lymphocytes. Consistent with prior studies, we found that circulating HIV-1 Envs do not use rhCD4 efficiently for viral entry. However, by using HIV-1 Envs with single amino acid substitutions that alter their conformational state, we found that transitions to intermediate and open Env conformations allow usage of physiological levels of rhCD4 for viral entry. We engineered these single amino acid substitutions in the transmitted/founder HIV-1 Envs encoded by SHIV-BG505 and found that open Env conformation enhances SHIV replication in rhesus lymphocytes. Lastly, CD4-mediated SHIV pulldown, sensitivity to soluble CD4, and fusogenicity assays indicated that open Env conformation promotes efficient rhCD4 binding and viral-host membrane fusion. These findings identify the conformational state of HIV-1 Env as a major determinant for rhCD4 usage, viral fusion, and SHIV replication. Rhesus macaques are a critical animal model for preclinical testing of HIV-1 vaccine and prevention approaches. However, HIV-1 does not replicate in rhesus macaques, and thus, chimeric simian-human immunodeficiency viruses (SHIVs), which encode HIV-1 envelope glycoproteins (Envs), are used as surrogate challenge viruses to infect rhesus macaques for modeling HIV-1 infection. Development of SHIVs encoding Envs from clinically relevant, circulating HIV-1 variants has been extremely challenging, as such SHIVs replicate poorly, if at all, in rhesus lymphocytes. This is most probably because many circulating HIV-1 Envs do not use rhesus CD4 efficiently for viral entry. In this study, we identified conformational state of HIV-1 envelope as a key determinant for rhesus CD4 usage, viral-host membrane fusion, and SHIV replication in rhesus lymphocytes.
恒河猴感染猿猴 - 人类免疫缺陷病毒(SHIV)是疫苗开发的首选模型系统,因为 SHIV 编码人类免疫缺陷病毒 1(HIV-1)包膜糖蛋白(Env) - HIV-1 中和抗体的关键靶标。由于疫苗的目标是预防新的感染,因此需要编码循环 HIV-1 Env 的 SHIV 作为挑战病毒。然而,开发这种具有生物学相关性的 SHIV 一直具有挑战性,因为它们不能感染恒河猴,主要是因为大多数循环 HIV-1 Env 并不使用恒河猴 CD4(rhCD4)受体进行病毒进入。大多数原发性 HIV-1 Env 存在于封闭构象中,并且偶尔通过必需的中间构象过渡到下游开放构象。在这里,我们提供遗传证据表明开放的 Env 构象可以克服 rhCD4 进入障碍并增加 SHIV 在恒河猴淋巴细胞中的复制。与先前的研究一致,我们发现循环 HIV-1 Env 不能有效地利用 rhCD4 进行病毒进入。然而,通过使用 HIV-1 Env 的单个氨基酸取代来改变其构象状态,我们发现过渡到中间和开放的 Env 构象允许利用生理水平的 rhCD4 进行病毒进入。我们在 SHIV-BG505 编码的传播/原始 HIV-1 Env 中设计了这些单个氨基酸取代,并发现开放的 Env 构象增强了 SHIV 在恒河猴淋巴细胞中的复制。最后,CD4 介导的 SHIV 下拉、可溶性 CD4 的敏感性和融合测定表明,开放的 Env 构象促进了有效的 rhCD4 结合和病毒 - 宿主膜融合。这些发现确定了 HIV-1 Env 的构象状态作为 rhCD4 利用、病毒融合和 SHIV 复制的主要决定因素。恒河猴是 HIV-1 疫苗和预防方法临床前测试的关键动物模型。然而,HIV-1 不会在恒河猴中复制,因此,嵌合的猿猴 - 人类免疫缺陷病毒(SHIV),其编码 HIV-1 包膜糖蛋白(Env),被用作替代挑战病毒以感染恒河猴以模拟 HIV-1 感染。然而,开发编码来自临床相关循环 HIV-1 变体的 Env 的 SHIV 极具挑战性,因为此类 SHIV 在恒河猴淋巴细胞中复制不良,如果有的话。这很可能是因为许多循环 HIV-1 Env 不能有效地利用 rhCD4 进行病毒进入。在这项研究中,我们确定了 HIV-1 包膜的构象状态作为 rhCD4 利用、病毒 - 宿主膜融合和 SHIV 在恒河猴淋巴细胞中复制的关键决定因素。
