Wilflingseder Doris, Banki Zoltan, Garcia Eduardo, Pruenster Monika, Pfister Gerald, Muellauer Brigitte, Nikolic Damjan S, Gassner Christoph, Ammann Christoph G, Dierich Manfred P, Piguet Vincent, Stoiber Heribert
Department of Hygiene, Microbiology and Social Medicine, Innsbruck Medical University, Innsbruck, Austria.
J Immunol. 2007 Jun 15;178(12):7840-8. doi: 10.4049/jimmunol.178.12.7840.
Already at initial phases of infection, HIV is coated with complement fragments. During the chronic phase, when HIV-specific IgGs appear, the virus circulates immune complexed with IgG and complement. Thus, we studied the interaction of dendritic cells (DCs) and DC-T cell cocultures with complement (C)-opsonized and C-IgG-opsonized HIV. HIV infection of monocyte-derived DCs and circulating BDCA-1-positive DCs was significantly reduced upon the presence of virus-specific but non-neutralizing IgGs. DCs exposed to C-Ig-HIV or IgG-opsonized HIV showed an impaired provirus formation and p24 production and a decreased transmission rate to autologous nonstimulated T cells upon migration along a chemokine gradient. This reduced infectivity was also observed in long-term experiments, when T cells were added delayed to DCs exposed to IgG-coated HIV without migration. Similar kinetics were seen when sera from HIV-1-infected individuals before and after seroconversion were used in infection assays. Both C- and C-IgG-opsonized HIV were captured and targeted to a tetraspanin-rich endosome in immature DCs, but differed with respect to MHC class II colocalization. The reduced infection by IgG-opsonized HIV is possibly due to interactions of virus-bound IgG with FcgammaRIIb expressed on DCs. Therefore, the intracellular fate and transmission of immune-complexed HIV seems to differ depending on time and opsonization pattern.
在感染的初始阶段,HIV就已被补体片段包被。在慢性期,当出现HIV特异性IgG时,病毒以与IgG和补体形成的免疫复合物形式循环。因此,我们研究了树突状细胞(DCs)以及DC - T细胞共培养物与补体(C)调理的和C - IgG调理的HIV之间的相互作用。当存在病毒特异性但非中和性IgG时,单核细胞来源的DCs和循环中的BDCA - 1阳性DCs的HIV感染显著降低。暴露于C - Ig - HIV或IgG调理的HIV的DCs,在前病毒形成和p24产生方面受损,并且在沿趋化因子梯度迁移时向自体未刺激T细胞的传播率降低。在长期实验中也观察到了这种感染性降低的情况,即当将T细胞延迟添加到暴露于IgG包被的HIV且未迁移的DCs中时。当使用HIV - 1感染个体血清转化前后的血清进行感染试验时,观察到了类似的动力学。C调理的和C - IgG调理的HIV都被捕获并靶向未成熟DCs中富含四跨膜蛋白的内体,但在MHC II类分子共定位方面有所不同。IgG调理的HIV感染性降低可能是由于病毒结合的IgG与DCs上表达的FcγRIIb相互作用所致。因此,免疫复合物形式的HIV的细胞内命运和传播似乎因时间和调理模式而异。
