Goyvaerts Cleo, Kurt De Groeve, Van Lint Sandra, Heirman Carlo, Van Ginderachter Jo A, De Baetselier Patrick, Raes Geert, Thielemans Kris, Breckpot Karine
Laboratory of Molecular and Cellular Therapy, Department of Immunology-Physiology, Vrije Universiteit Brussel, Brussels, Belgium.
Oncotarget. 2014 Feb 15;5(3):704-15. doi: 10.18632/oncotarget.1680.
To increase the safety and possibly efficacy of HIV-1 derived lentivectors (LVs) as an anti-cancer vaccine, we recently developed the Nanobody (Nb) display technology to target LVs to antigen presenting cells (APCs). In this study, we extend these data with exclusive targeting of LVs to conventional dendritic cells (DCs), which are believed to be the main cross-presenting APCs for the induction of a TH1-conducted antitumor immune response. The immunogenicity of these DC-subtype targeted LVs was compared to that of broad tropism, general APC-targeted and non-infectious LVs. Intranodal immunization with ovalbumin encoding LVs induced proliferation of antigen specific CD4+ T cells, irrespective of the LVs' targeting ability. However, the cytokine secretion profile of the restimulated CD4+ T cells demonstrated that general APC targeting induced a similar TH1-profile as the broad tropism LVs while transduction of conventional DCs alone induced a similar and less potent TH1 profile as the non-infectious LVs. This observation contradicts the hypothesis that conventional DCs are the most important APCs and suggests that the activation of other APCs is also meaningful. Despite these differences, all targeted LVs were able to stimulate cytotoxic T lymphocytes, be it to a lesser extent than broad tropism LVs. Furthermore this induction was shown to be dependent on type I interferon for the targeted and non-infectious LVs, but not for broad tropism LVs. Finally we demonstrated that the APC-targeted LVs were as potent in therapy as broad tropism LVs and as such deliver on their promise as safer and efficacious LV-based vaccines.
为提高源自HIV-1的慢病毒载体(LVs)作为抗癌疫苗的安全性及可能的有效性,我们最近开发了纳米抗体(Nb)展示技术,以使LVs靶向抗原呈递细胞(APCs)。在本研究中,我们扩展了这些数据,将LVs专门靶向传统树突状细胞(DCs),据信这些细胞是诱导TH1主导的抗肿瘤免疫反应的主要交叉呈递APCs。将这些靶向DC亚型的LVs的免疫原性与广泛嗜性、一般靶向APCs的LVs及无感染性的LVs的免疫原性进行了比较。用编码卵清蛋白的LVs进行结内免疫可诱导抗原特异性CD4+ T细胞增殖,而与LVs的靶向能力无关。然而,再次刺激的CD4+ T细胞的细胞因子分泌谱表明,一般靶向APCs诱导的TH1谱与广泛嗜性LVs相似,而仅转导传统DCs诱导的TH1谱与无感染性LVs相似但效力较低。这一观察结果与传统DCs是最重要的APCs这一假设相矛盾,并表明激活其他APCs也有意义。尽管存在这些差异,但所有靶向的LVs都能够刺激细胞毒性T淋巴细胞,尽管程度低于广泛嗜性LVs。此外,已表明这种诱导对于靶向和无感染性LVs依赖于I型干扰素,而对于广泛嗜性LVs则不然。最后,我们证明了靶向APCs的LVs在治疗方面与广泛嗜性LVs一样有效,因此兑现了其作为更安全、有效的基于LV的疫苗的承诺。
