糖基磷脂酰肌醇锚定的抗HIV单链抗体片段可有效保护人外周血淋巴细胞小鼠中的CD4 T细胞免受HIV-1感染和缺失。
Glycosylphosphatidylinositol-Anchored Anti-HIV scFv Efficiently Protects CD4 T Cells from HIV-1 Infection and Deletion in hu-PBL Mice.
作者信息
Ye Chaobaihui, Wang Weiming, Cheng Liang, Li Guangming, Wen Michael, Wang Qi, Zhang Qing, Li Dan, Zhou Paul, Su Lishan
机构信息
Unit of Anti-Viral Immunity and Genetic Therapy, Key Laboratory of Molecular Virology and Immunology, Institut Pasteur of Shanghai, Chinese Academy of Sciences, Shanghai, China.
Lineberger Comprehensive Cancer Center, University of North Carolina at Chapel Hill, Chapel Hill, North Carolina, USA.
出版信息
J Virol. 2017 Jan 18;91(3). doi: 10.1128/JVI.01389-16. Print 2017 Feb 1.
UNLABELLED
Despite success in viral inhibition and CD4 T cell recovery by highly active antiretroviral treatment (HAART), HIV-1 is still not curable due to the persistence of the HIV-1 reservoir during treatment. One patient with acute myeloid leukemia who received allogeneic hematopoietic stem cell transplantation from a homozygous CCR5 Δ32 donor has had no detectable viremia for 9 years after HAART cessation. This case has inspired a field of HIV-1 cure research focusing on engineering HIV-1 resistance in permissive cells. Here, we employed a glycosylphosphatidylinositol (GPI)-scFv X5 approach to confer resistance of human primary CD4 T cells to HIV-1. We showed that primary CD4 T cells expressing GPI-scFv X5 were resistant to CCR5 (R5)-, CXCR4 (X4)-, and dual-tropic HIV-1 and had a survival advantage compared to control cells ex vivo In a hu-PBL mouse study, GPI-scFv X5-transduced CD4 T cells were selected in peripheral blood and lymphoid tissues upon HIV-1 infection. Finally, GPI-scFv X5-transduced CD4 T cells, after being cotransfused with HIV-infected cells, showed significantly reduced viral loads and viral RNA copy numbers relative to CD4 cells in hu-PBL mice compared to mice with GPI-scFv AB65-transduced CD4 T cells. We conclude that GPI-scFv X5-modified CD4 T cells could potentially be used as a genetic intervention against both R5- and X4-tropic HIV-1 infections.
IMPORTANCE
Blocking of HIV-1 entry is one of most promising approaches for therapy. Genetic disruption of the HIV-1 coreceptor CCR5 by nucleases in T cells is under 2 clinical trials and leads to reduced viremia in patients. However, the emergence of viruses using the CXCR4 coreceptor is a concern for therapies applying single-coreceptor disruption. Here, we report that HIV-1-permissive CD4 T cells engineered with GPI-scFv X5 are resistant to R5-, X4-, or dual-tropic virus infection ex vivo In a preclinical study using hu-PBL mice, we show that CD4 T cells were protected and that GPI-scFv X5-transduced cells were selected in HIV-1-infected animals. Moreover, we show that GPI-scFv X5-transduced CD4 T cells exerted a negative effect on virus replication in vivo We conclude that GPI-scFv X5-modified CD4 T cells could potentially be used as a genetic intervention against both R5- and X4-tropic HIV-1 infections.
未标记
尽管高效抗逆转录病毒治疗(HAART)在抑制病毒和恢复CD4 T细胞方面取得了成功,但由于治疗期间HIV-1储存库的持续存在,HIV-1仍然无法治愈。一名患有急性髓系白血病的患者接受了来自纯合CCR5 Δ32供体的异基因造血干细胞移植,在停止HAART后9年未检测到病毒血症。这个病例激发了一个HIV-1治愈研究领域,该领域专注于在允许性细胞中构建对HIV-1的抗性。在这里,我们采用糖基磷脂酰肌醇(GPI)-单链抗体片段X5方法赋予人类原代CD4 T细胞对HIV-1的抗性。我们表明,表达GPI-单链抗体片段X5的原代CD4 T细胞对CCR5(R5)-、CXCR4(X4)-和双嗜性HIV-1具有抗性,并且与体外对照细胞相比具有生存优势。在人外周血淋巴细胞(hu-PBL)小鼠研究中,GPI-单链抗体片段X5转导的CD4 T细胞在HIV-1感染后在外周血和淋巴组织中被选择。最后,与GPI-单链抗体片段AB65转导的CD4 T细胞的小鼠相比,GPI-单链抗体片段X5转导的CD4 T细胞在与HIV感染细胞共输注后,相对于hu-PBL小鼠中的CD4细胞,病毒载量和病毒RNA拷贝数显著降低。我们得出结论,GPI-单链抗体片段X5修饰的CD4 T细胞可能潜在地用作针对R5-和X4嗜性HIV-1感染的基因干预手段。
重要性
阻断HIV-1进入是最有前景的治疗方法之一。通过核酸酶在T细胞中对HIV-1共受体CCR5进行基因破坏正在进行2项临床试验,并导致患者病毒血症降低。然而,使用CXCR4共受体的病毒的出现是应用单共受体破坏疗法的一个担忧。在这里,我们报告用GPI-单链抗体片段X5改造的HIV-1允许性CD4 T细胞在体外对R5-、X4-或双嗜性病毒感染具有抗性。在使用hu-PBL小鼠的临床前研究中,我们表明CD4 T细胞受到保护,并且GPI-单链抗体片段X5转导的细胞在HIV-1感染的动物中被选择。此外,我们表明GPI-单链抗体片段X5转导的CD4 T细胞在体内对病毒复制产生负面影响。我们得出结论,GPI-单链抗体片段X5修饰的CD4 T细胞可能潜在地用作针对R5-和X4嗜性HIV-1感染的基因干预手段。
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