Department of Dermatology, University Medical Center of the Johannes Gutenberg University Mainz, Mainz, Germany.
Ganzimmun Diagnostics AG, Mainz, Germany.
Amino Acids. 2020 Mar;52(3):411-424. doi: 10.1007/s00726-020-02817-4. Epub 2020 Feb 1.
We have previously shown that particle-mediated epidermal delivery (PMED) of plasmids encoding β-galactosidase (βGal) under control of the fascin-1 promoter (pFascin-βGal) yielded selective production of the protein in skin dendritic cells (DCs), and suppressed Th2 responses in a mouse model of type I allergy by inducing Th1/Tc1 cells. However, intranasal challenge of mice immunized with pFascin-βGal induced airway hyperreactivity (AHR) and neutrophilic inflammation in the lung. The tryptophan-catabolizing enzyme indoleamine 2,3-dioxygenase (IDO) has been implicated in immune suppression and tolerance induction. Here we investigated the consequences of co-application of an IDO-encoding vector on the modulatory effect of DNA vaccination by PMED using pFascin-βGal in models of eosinophilic allergic and non-eosinophilic intrinsic airway inflammation. IDO-encoding plasmids and pFascin-βGal or pCMV-βGal were co-applied to abdominal skin of BALB/c mice without, before or after sensitization with βGal protein. Immune responses in the lung were analysed after intranasal provocation and airway reactivity was determined by whole body plethysmography. Co-application of pCMV-IDO with pFascin-βGal, but not pCMV-βGal inhibited the Th1/Tc1 immune response after PMED. Moreover, AHR in those mice was attenuated following intranasal challenge. Therapeutic vaccination of βGal-sensitized mice with pFascin-βGal plus pCMV-IDO slightly suppressed airway inflammation and AHR after provocation with βGal protein, while prophylactic vaccination was not effective. Altogether, our data suggest that only the combination of DC-restricted antigen and ubiquitous IDO expression attenuated asthma responses in mice, most probably by forming a tryptophan-depleted and kynurenine-enriched micromilieu known to affect neutrophils and T cells.
我们之前已经表明,通过 Fascin-1 启动子(pFascin-βGal)控制下的粒子介导的表皮传递(PMED),将编码β-半乳糖苷酶(βGal)的质粒递送至皮肤树突状细胞(DC)中,可以选择性地产生该蛋白,并通过诱导 Th1/Tc1 细胞来抑制 I 型过敏小鼠模型中的 Th2 反应。然而,用 pFascin-βGal 免疫的小鼠经鼻内挑战会导致气道高反应性(AHR)和肺部中性粒细胞炎症。色氨酸分解酶吲哚胺 2,3-双加氧酶(IDO)已被认为与免疫抑制和耐受诱导有关。在这里,我们研究了在嗜酸性粒细胞性变应性和非嗜酸性固有气道炎症模型中,使用 PMED 用 pFascin-βGal 共同应用 IDO 编码载体对 DNA 疫苗的调节作用的后果。IDO 编码质粒和 pFascin-βGal 或 pCMV-βGal 在用 βGal 蛋白致敏之前、同时或之后共同应用于 BALB/c 小鼠的腹部皮肤。通过全身体积描记术测定鼻内激发后肺中的免疫反应和气道反应性。在 PMED 后,共同应用 pCMV-IDO 和 pFascin-βGal 抑制 Th1/Tc1 免疫反应,而共同应用 pCMV-βGal 则没有抑制作用。此外,那些小鼠的 AHR 在鼻内激发后得到缓解。用 pFascin-βGal 加 pCMV-IDO 对 βGal 致敏的小鼠进行治疗性疫苗接种,在用 βGal 蛋白激发后,轻微抑制气道炎症和 AHR,而预防性疫苗接种则无效。总之,我们的数据表明,只有 DC 限制性抗原和普遍表达的 IDO 的组合才能减轻哮喘反应,这很可能是通过形成已知影响中性粒细胞和 T 细胞的色氨酸耗尽和犬尿氨酸丰富的微环境来实现的。
