Jasny Edith, Eisenblätter Martin, Mätz-Rensing Kerstin, Tenner-Racz Klara, Tenbusch Matthias, Schrod Annette, Stahl-Hennig Christiane, Moos Verena, Schneider Thomas, Racz Paul, Uberla Klaus, Kaup Franz-Josef, Ignatius Ralf
Institute of Microbiology and Hygiene, Department of Infection Immunology, Charité-University Medicine Berlin, Berlin, Germany.
J Immunol. 2008 May 15;180(10):6629-39. doi: 10.4049/jimmunol.180.10.6629.
Experimental studies in monkeys on the basis of ex vivo-generated, reinjected dendritic cells (DCs) allow investigations of primate DC biology in vivo. To study in vitro and in vivo properties of DCs with a reduced capacity to produce IL-12, we adapted findings obtained in vitro with human cells to the rhesus macaque model. Following exposure of immature monocyte-derived monkey DCs to the immunomodulating synthetic polypeptide glatiramer acetate (GA) and to dibutyryl-cAMP (d-cAMP; i.e., a cAMP enhancer that activates DCs but inhibits the induction of Th1 immune responses), the resulting DCs displayed a mature phenotype with enhanced Ag-specific T cell stimulatory function, notably also for memory Th1 cells. Phosphorylation of p38 MAPK was not induced in GA/d-cAMP-activated DCs. Accordingly, these cells secreted significantly less IL-12p40 (p < or = 0.001) than did cytokine-activated cells. However, upon restimulation with rhesus macaque CD154, GA/d-cAMP-activated DCs produced IL-12p40/IL-23. Additionally, DCs activated by proinflammatory cytokines following protocols for the generation of cells used in clinical studies secreted significantly more IL-23 upon CD154 restimulation than following prior activation. Two days after intradermal injection, GA/d-cAMP-activated fluorescence-labeled DCs were detected in the T cell areas of draining lymph nodes. When similarly injected, GA/d-cAMP as well as cytokine-activated protein-loaded DCs induced comparable Th immune responses characterized by secretion of IFN-gamma, TNF, and IL-17, and transiently expanded FOXP3(+) regulatory T cells. Reactivation of primate DCs through CD154 considerably influences their immmunostimulatory properties. This may have a substantial impact on the development of innovative vaccine approaches.
基于体外生成并重新注射的树突状细胞(DCs)对猴子进行的实验研究,能够在体内研究灵长类动物DC生物学特性。为了研究产生白细胞介素-12(IL-12)能力降低的DCs的体外和体内特性,我们将体外用人细胞获得的研究结果应用于恒河猴模型。将未成熟的单核细胞衍生的猴子DCs暴露于免疫调节合成多肽醋酸格拉替雷(GA)和二丁酰环磷腺苷(d-cAMP;即一种激活DCs但抑制Th1免疫反应诱导的环磷腺苷增强剂)后,产生的DCs呈现出成熟表型,具有增强的抗原特异性T细胞刺激功能,特别是对记忆性Th1细胞。在GA/d-cAMP激活的DCs中未诱导p38丝裂原活化蛋白激酶(MAPK)的磷酸化。因此,这些细胞分泌的IL-12p40明显少于细胞因子激活的细胞(p≤0.001)。然而,在用恒河猴CD154再次刺激时,GA/d-cAMP激活的DCs产生IL-12p40/IL-23。此外,按照临床研究中所用细胞的生成方案用促炎细胞因子激活的DCs,在CD154再次刺激后分泌的IL-23明显多于先前激活后。皮内注射两天后,在引流淋巴结的T细胞区域检测到GA/d-cAMP激活的荧光标记DCs。当进行类似注射时,GA/d-cAMP以及细胞因子激活的负载蛋白的DCs诱导了类似的Th免疫反应,其特征是分泌干扰素-γ(IFN-γ)、肿瘤坏死因子(TNF)和白细胞介素-17(IL-17),并短暂扩增叉头框蛋白P3(FOXP)3(+)调节性T细胞。通过CD154重新激活灵长类动物DCs会极大地影响其免疫刺激特性。这可能对创新疫苗方法的开发产生重大影响。
