Soleymani Sepehr, Hadi Amin, Asgari Fatemeh, Haghighipour Nooshin, Bolhassani Azam
Department of Hepatitis and AIDs, Pasteur Institute of Iran, Tehran, Iran.
National Cell Bank of Iran, Pasteur Institute of Iran, Tehran, Iran.
Curr Drug Deliv. 2019;16(9):818-828. doi: 10.2174/1567201816666190923152914.
Novel vaccination approaches are required to control human immunodeficiency virus (HIV) infections. The membrane proximal external region (MPER) of Env gp41 subunit and the V3/glycans of Env gp120 subunit were known as potential antigenic targets for anti-HIV-1 vaccines. In this study, we prepared the modified dendritic cells (DCs) and mesenchymal stem cells (MSCs) with HIV-1 MPER-V3 gene using mechanical and chemical approaches.
At first, MPER-V3 fusion DNA delivery was optimized in dendritic cells (DCs) and mesenchymal stem cells (MSCs) using three mechanical (i.e., uniaxial cyclic stretch, equiaxial cyclic stretch and shear stress bioreactors), and two chemical (i.e., TurboFect or Lipofectamine) methods. Next, the modified DCs and MSCs with MPER-V3 antigen were compared to induce immune responses in vivo.
Our data showed that the combination of equiaxial cyclic stretch loading and lipofectamine twice with 48 h intervals increased the efficiency of transfection about 60.21 ± 1.05 % and 65.06 ± 0.09 % for MSCs and DCs, respectively. Moreover, DCs and MSCs transfected with MPER-V3 DNA in heterologous DC or MSC prime/ peptide boost immunizations induced high levels of IgG2a, IgG2b, IFN-γ and IL-10 directed toward Th1 responses as well as an increased level of Granzyme B. Indeed, the modified MSCs and DCs with MPER-V3 DNA could significantly enhance the MPER/V3-specific T-cell responses compared to MPER/V3 peptide immunization.
These findings showed that the modified MSC-based immunization could elicit effective immune responses against HIV antigen similar to the modified DC-based immunization.
需要新的疫苗接种方法来控制人类免疫缺陷病毒(HIV)感染。Env gp41亚基的膜近端外部区域(MPER)和Env gp120亚基的V3/聚糖被认为是抗HIV-1疫苗的潜在抗原靶点。在本研究中,我们使用物理和化学方法制备了携带HIV-1 MPER-V3基因的修饰树突状细胞(DCs)和间充质干细胞(MSCs)。
首先,使用三种物理方法(即单轴循环拉伸、等轴循环拉伸和剪切应力生物反应器)和两种化学方法(即TurboFect或Lipofectamine)优化MPER-V3融合DNA在树突状细胞(DCs)和间充质干细胞(MSCs)中的递送。接下来,比较携带MPER-V3抗原的修饰DCs和MSCs在体内诱导免疫反应的情况。
我们的数据表明,等轴循环拉伸加载与Lipofectamine以48小时间隔进行两次组合,分别使MSCs和DCs的转染效率提高了约60.21±1.05%和65.06±0.09%。此外,在异源DC或MSC初免/肽加强免疫中,用MPER-V3 DNA转染的DCs和MSCs诱导了高水平的针对Th1反应的IgG2a、IgG2b、IFN-γ和IL-10,以及颗粒酶B水平的增加。事实上,与MPER/V3肽免疫相比,携带MPER-V3 DNA的修饰MSCs和DCs能显著增强MPER/V3特异性T细胞反应。
这些发现表明,基于修饰MSC的免疫接种能够引发与基于修饰DC的免疫接种相似的针对HIV抗原的有效免疫反应。
