Tacken Paul J, Joosten Ben, Reddy Anita, Wu Dayang, Eek Annemarie, Laverman Peter, Kretz-Rommel Anke, Adema Gosse J, Torensma Ruurd, Figdor Carl G
Department of Tumor Immunology, Nijmegen Centre for Molecular Life Sciences, Radboud University Nijmegen Medical Centre, Nijmegen, The Netherlands.
J Immunol. 2008 Jun 1;180(11):7687-96. doi: 10.4049/jimmunol.180.11.7687.
Induction of CTL responses by dendritic cell (DC)-based vaccines requires efficient DC-loading strategies for class I Ags. Coupling Ags to cell-penetrating peptides (CPPs) or receptor-specific Abs improves Ag loading of DCs. In contrast to CPPs, receptor-specific Abs deliver conjugated Ags to DCs with high specificity, which is advantageous for in vivo strategies. It has, however, been speculated that CPPs facilitate uptake and endosomal escape of conjugated Ags, which would potently enhance cross-presentation. In this study, we directly compare the in vitro targeting efficiency of a humanized D1 Ab directed against the human DC surface receptor DC-SIGN hD1 to that of three CPPs. The three CPPs colocalized within endosomes when targeted to human monocyte-derived DCs simultaneously, whereas hD1 was present in a different set of endosomes. However, within 75 min after uptake CPPs and hD1 colocalized extensively within the lysosomal compartment. Ab-mediated targeting of class I-restricted peptides to DC-SIGN enhanced cross-presentation of the peptides, while only one of the CPPs enhanced peptide presentation. This CPP and hD1 enhanced cross-presentation with equal efficiencies. Thus, we found no evidence of CPP specifically favoring the delivery of conjugated Ag to the DC class I presentation pathway. Given the specificity with which Abs recognize their targets, this favors the use of DC receptor-specific Abs for in vivo vaccination strategies.
基于树突状细胞(DC)的疫苗诱导CTL反应需要针对I类抗原的高效DC负载策略。将抗原与细胞穿透肽(CPP)或受体特异性抗体偶联可提高DC对抗原的负载。与CPP不同,受体特异性抗体能将偶联抗原高度特异性地递送至DC,这对体内策略有利。然而,据推测CPP可促进偶联抗原的摄取和内体逃逸,从而有力地增强交叉呈递。在本研究中,我们直接比较了针对人DC表面受体DC-SIGN的人源化D1抗体与三种CPP在体外的靶向效率。当同时靶向人单核细胞衍生的DC时,三种CPP在内体中共同定位,而hD1存在于另一组内体中。然而,摄取后75分钟内,CPP和hD1在溶酶体区室中广泛共同定位。抗体介导的I类限制性肽靶向DC-SIGN增强了肽的交叉呈递,而只有一种CPP增强了肽的呈递。这种CPP和hD1以相同效率增强交叉呈递。因此,我们没有发现CPP特别有利于将偶联抗原递送至DC I类呈递途径的证据。鉴于抗体识别其靶标的特异性,这有利于在体内疫苗接种策略中使用DC受体特异性抗体。
