Department of Medical Biology, Jagiellonian University College of Medicine, Kraków, Poland.
Department of Medical Biology, Jagiellonian University College of Medicine, Kraków, Poland.
Pharmacol Rep. 2014 Feb;66(1):137-42. doi: 10.1016/j.pharep.2013.06.008. Epub 2014 Feb 1.
Epicutaneous (EC) immunization offers a new method of a needle-free and self-administrable immunization by using a topically applied patch to deliver vaccine. We have previously shown that EC immunization with hapten-conjugated protein antigen TNP-Ig prior to hapten sensitization inhibits Th1-mediated contact hypersensitivity (CHS) in mice. Our further work showed that EC immunization with TNP-Ig and Toll-like receptor (TLR) ligands prior to hapten sensitization reverses skin-induced suppression.
Animal model of contact hypersensitivity was used to study reversal of skin-induced suppression.
Current work showed that EC immunization with protein antigen TNP-Ig and MDP NOD2 agonist - muramyldipeptide (L isoform) reverses skin-induced suppression of CHS. On the other hand L18-MDP NOD2 agonist - muramyldipeptide with a C18 fatty acid chain and MDP control - negative control for MDP - muramyldipeptide (D isoform, inactive) did not reverse skin-induced suppression. "Transfer in" experiment showed that reversal of skin-induced suppression can be adoptively transferred with lymphoid cells isolated from donors EC treated with TNP-Ig and MDP NOD2 agonist. Moreover, experiment employing two non-cross-reacting antigens TNP-Ig and OX-Ig proved that reversal of skin-induced suppression is antigen specific. Additionally, lymph node cells isolated from mice EC immunized with TNP-Ig and MDP NOD2 agonist produced increased level of IFN-γ suggesting that this cytokine might be involved in reversal of skin-induced suppression.
This work shows that EC immunization with protein antigen plus NOD2 ligand MDP may be a potential tool to increase the immunogenicity of weekly immunogenic antigens.
经皮(EC)免疫通过使用局部应用贴剂来递送疫苗,提供了一种无针和自我管理的免疫新方法。我们之前已经表明,在变应原敏化之前,用半抗原缀合蛋白抗原 TNP-Ig 进行 EC 免疫可抑制小鼠 Th1 介导的接触超敏反应(CHS)。我们的进一步工作表明,在变应原敏化之前,用 TNP-Ig 和 Toll 样受体(TLR)配体进行 EC 免疫可逆转皮肤诱导的抑制。
使用接触超敏反应的动物模型来研究皮肤诱导的抑制的逆转。
目前的工作表明,用蛋白抗原 TNP-Ig 和 MDP NOD2 激动剂 - 乳酰二肽(L 异构体)进行 EC 免疫可逆转 CHS 的皮肤诱导抑制。另一方面,L18-MDP NOD2 激动剂 - 具有 C18 脂肪酸链的乳酰二肽和 MDP 对照 - MDP 乳酰二肽的阴性对照(D 异构体,无活性)不能逆转皮肤诱导的抑制。“转移实验”表明,从用 TNP-Ig 和 MDP NOD2 激动剂处理的供体 EC 中分离的淋巴细胞可以进行皮肤诱导抑制的逆转。此外,使用两种非交叉反应抗原 TNP-Ig 和 OX-Ig 的实验证明,皮肤诱导抑制的逆转是抗原特异性的。此外,从用 TNP-Ig 和 MDP NOD2 激动剂进行 EC 免疫的小鼠中分离的淋巴结细胞产生了增加的 IFN-γ 水平,这表明该细胞因子可能参与了皮肤诱导抑制的逆转。
这项工作表明,用蛋白抗原加 NOD2 配体 MDP 进行 EC 免疫可能是增加弱免疫原性抗原的免疫原性的潜在工具。
