Andrés Cristina, Plana Montserrat, Guardo Alberto C, Alvarez-Fernández Carmen, Climent Nuria, Gallart Teresa, León Agathe, Clotet Bonaventura, Autran Brigitte, Chomont Nicolas, Gatell Josep M, Sánchez-Palomino Sonsoles, García Felipe
AIDS Research Group, IDIBAPS-HIVACAT, Hospital Clínic, University of Barcelona, Barcelona, Spain.
Hospital Germans Trias i Pujol, IRSICAIXA-HIVACAT, Badalona, Spain.
J Virol. 2015 Sep;89(18):9189-99. doi: 10.1128/JVI.01062-15. Epub 2015 Jun 24.
HIV-1-specific immune responses induced by a dendritic cell (DC)-based therapeutic vaccine might have some effect on the viral reservoir. Patients on combination antiretroviral therapy (cART) were randomized to receive DCs pulsed with autologous HIV-1 (n = 24) (DC-HIV-1) or nonpulsed DCs (n = 12) (DC-control). We measured the levels of total and integrated HIV-1 DNA in CD4 T cells isolated from these patients at 6 time points: before any cART; before the first cART interruption, which was at 56 weeks before the first immunization to isolate virus for pulsing DCs; before and after vaccinations (VAC1 and VAC2); and at weeks 12 and 48 after the second cART interruption. The vaccinations did not influence HIV-1 DNA levels in vaccinated subjects. After the cART interruption at week 12 postvaccination, while total HIV-1 DNA increased significantly in both arms, integrated HIV-1 DNA did not change in vaccinees (mean of 1.8 log10 to 1.9 copies/10(6) CD4 T cells, P = 0.22) and did increase in controls (mean of 1.8 log10 to 2.1 copies/10(6) CD4 T cells, P = 0.02) (P = 0.03 for the difference between groups). However, this lack of increase of integrated HIV-1 DNA observed in the DC-HIV-1 group was transient, and at week 48 after cART interruption, no differences were observed between the groups. The HIV-1-specific T cell responses at the VAC2 time point were inversely correlated with the total and integrated HIV-1 DNA levels after cART interruption in vaccinees (r [Pearson's correlation coefficient] = -0.69, P = 0.002, and r = -0.82, P < 0.0001, respectively). No correlations were found in controls. HIV-1-specific T cell immune responses elicited by DC therapeutic vaccines drive changes in HIV-1 DNA after vaccination and cART interruption. (This study has been registered at ClinicalTrials.gov under registration no. NCT00402142.)
There is an intense interest in developing strategies to target HIV-1 reservoirs as they create barriers to curing the disease. The development of therapeutic vaccines aimed at enhancing immune-mediated clearance of virus-producing cells is of high priority. Few therapeutic vaccine clinical trials have investigated the role of therapeutic vaccines as a strategy to safely eliminate or control viral reservoirs. We recently reported that a dendritic cell-based therapeutic vaccine was able to significantly decrease the viral set point in vaccinated patients, with a concomitant increase in HIV-1-specific T cell responses. The HIV-1-specific T cell immune responses elicited by this therapeutic dendritic cell vaccine drove changes in the viral reservoir after vaccinations and significantly delayed the replenishment of integrated HIV-1 DNA after cART interruption. These data help in understanding how an immunization could shift the virus-host balance and are instrumental for better design of strategies to reach a functional cure of HIV-1 infection.
基于树突状细胞(DC)的治疗性疫苗所诱导的HIV-1特异性免疫反应可能对病毒储存库有一定影响。接受联合抗逆转录病毒疗法(cART)的患者被随机分为两组,一组接受用自体HIV-1脉冲处理的DC(n = 24)(DC-HIV-1),另一组接受未脉冲处理的DC(n = 12)(DC-对照)。我们在6个时间点测量了从这些患者分离的CD4 T细胞中总HIV-1 DNA和整合型HIV-1 DNA的水平:开始任何cART之前;第一次cART中断前,即在第一次免疫以分离用于脉冲DC的病毒前56周;接种疫苗前和后(VAC1和VAC2);以及第二次cART中断后12周和48周。接种疫苗对接种者体内的HIV-1 DNA水平没有影响。在接种疫苗后第12周cART中断后,虽然两组中总HIV-1 DNA均显著增加,但整合型HIV-1 DNA在疫苗接种者中没有变化(从平均1.8 log10增至1.9拷贝/10⁶ CD4 T细胞,P = 0.22),而在对照组中增加了(从平均1.8 log10增至2.1拷贝/10⁶ CD4 T细胞,P = 0.02)(两组间差异P = 0.03)。然而,在DC-HIV-1组中观察到的整合型HIV-1 DNA缺乏增加是短暂的,在cART中断后48周时,两组间未观察到差异。在VAC2时间点的HIV-1特异性T细胞反应与疫苗接种者cART中断后的总HIV-1 DNA和整合型HIV-1 DNA水平呈负相关(r [皮尔逊相关系数] = -0.69,P = 0.002,以及r = -0.82,P < 0.0001)。在对照组中未发现相关性。DC治疗性疫苗引发的HIV-1特异性T细胞免疫反应在接种疫苗和cART中断后推动了HIV-1 DNA的变化。(本研究已在ClinicalTrials.gov注册,注册号为NCT00402142。)
开发针对HIV-1储存库的策略备受关注,因为它们是治愈该疾病的障碍。开发旨在增强免疫介导清除病毒产生细胞的治疗性疫苗具有高度优先性。很少有治疗性疫苗临床试验研究治疗性疫苗作为安全消除或控制病毒储存库策略的作用。我们最近报告,一种基于树突状细胞的治疗性疫苗能够显著降低接种患者的病毒载量,同时HIV-1特异性T细胞反应增加。这种治疗性树突状细胞疫苗引发的HIV-1特异性T细胞免疫反应在接种疫苗后推动了病毒储存库的变化,并显著延迟了cART中断后整合型HIV-1 DNA的补充。这些数据有助于理解免疫接种如何改变病毒与宿主的平衡,并且有助于更好地设计实现HIV-1感染功能性治愈的策略。
