Vollmer Jörg, Weeratna Risini D, Jurk Marion, Davis Heather L, Schetter Christian, Wüllner Meike, Wader Tanja, Liu Ming, Kritzler Andrea, Krieg Arthur M
Coley Pharmaceutical, Elisabeth-Selbert-Str. 9, 40764 Langenfeld, Germany.
J Leukoc Biol. 2004 Sep;76(3):585-93. doi: 10.1189/jlb.0104034. Epub 2004 Jun 24.
Synthetic phosphorothioate oligodeoxynucleotides (ODN) bearing unmethylated CpG motifs can mimic the immune-stimulatory effects of bacterial DNA and are recognized by Toll-like receptor 9 (TLR9). Past studies have demonstrated that nucleotide modifications at positions at or near the CpG dinucleotides can severely affect immune modulation. However, the effect of nucleotide modifications to stimulate human leukocytes and the mechanism by which chemically modified CpG ODN induce this stimulation are not well understood. We investigated the effects of CpG deoxyguanosine substitutions on the signaling mediated by human TLR9 transfected into nonresponsive cells. ODN incorporating most of these substitutions stimulated detectable TLR9-dependent signaling, but this was markedly weaker than that induced by an unmodified CpG ODN. One of the most active ODN tested contained deoxyinosine for deoxyguanosine substitutions (CpI ODN), but its relative activity to induce cytokine secretion on mouse cells was much weaker than on human cells. The activity was dependent on TLR9, as splenocytes from mice genetically deficient in TLR9 did not respond to CpI ODN stimulation. It is surprising that CpI ODN were nearly as strong as CpG ODN for induction of human B cell stimulation but were inferior to CpG ODN in their ability to induce T helper cell type 1 effects. These data indicate that certain deoxyguanosine substitutions in CpG dinucleotides are tolerated to stimulate a TLR9-mediated immune response, but this response is insufficient to induce optimal interferon-alpha-mediated effects, which depend on the presence of an unmodified CpG dinucleotide. These studies provide a structure-activity relationship for TLR9 agonist compounds with diverse immune effects.
带有未甲基化CpG基序的合成硫代磷酸酯寡脱氧核苷酸(ODN)可模拟细菌DNA的免疫刺激作用,并被Toll样受体9(TLR9)识别。过去的研究表明,在CpG二核苷酸处或其附近位置的核苷酸修饰可严重影响免疫调节。然而,核苷酸修饰对刺激人白细胞的影响以及化学修饰的CpG ODN诱导这种刺激的机制尚不清楚。我们研究了CpG脱氧鸟苷取代对转染到无反应细胞中的人TLR9介导的信号传导的影响。包含这些取代中的大多数的ODN刺激了可检测到的TLR9依赖性信号传导,但这明显弱于未修饰的CpG ODN诱导的信号传导。测试的最具活性的ODN之一含有脱氧肌苷用于脱氧鸟苷取代(CpI ODN),但其在小鼠细胞上诱导细胞因子分泌的相对活性远低于在人细胞上的活性。该活性依赖于TLR9,因为来自基因缺陷型TLR9小鼠的脾细胞对CpI ODN刺激无反应。令人惊讶的是,CpI ODN在诱导人B细胞刺激方面几乎与CpG ODN一样强,但在诱导1型辅助性T细胞效应方面的能力不如CpG ODN。这些数据表明,CpG二核苷酸中的某些脱氧鸟苷取代可耐受以刺激TLR9介导的免疫反应,但这种反应不足以诱导最佳的干扰素-α介导的效应,而这取决于未修饰的CpG二核苷酸的存在。这些研究为具有多种免疫效应的TLR9激动剂化合物提供了构效关系。