University of Defence, Faculty of Military Health Sciences, 1575 Trebesska, 500 01 Hradec Kralove, Czech Republic.
Microb Pathog. 2012 Nov-Dec;53(5-6):259-68. doi: 10.1016/j.micpath.2012.07.006. Epub 2012 Jul 25.
The role of antibodies in the course of Francisella tularensis (F. tularensis) infection is still a subject of debate. The understanding of the poorly described role of humoral immunity is more than important for the effort to develop effective prophylactic procedure against the infection with Francisella virulent strains. We utilized the model of gamma-irradiated mice for the studies of the protective role of anti-F. tularensis antibodies in order to partially eliminate cellular responses. The model of gamma-irradiated mice can also demonstrate the responses of immunocompromised host to intracellular bacterial infection. The gamma-irradiation by doses greater than 3 Gy completely impairs the resistance to infection and causes a disbalance of cytokine production in mice. In this study, we demonstrate that passive transfer of immune sera protected irradiated mice against subsequent infection with strains of F. tularensis subsp. holarctica. Naïve mice of BALB/c or C3H/CBi strains were subjected to passive transfer of sera obtained from immunized mice with live vaccine strain (LVS) F. tularensis LVS, F. tularensis subsp. holarctica strain 15, heat-killed F. tularensis LVS, or heat-killed strain 15 two hours before infection with lethal doses of LVS or strain 15. The passive transfer of sera obtained from immunized mice conferred full protection of naïve unirradiated as well as sublethally irradiated mice against low lethal doses of infection with F. tularensis LVS or strain 15, in all variants of the experiments. In addition, the passively protected mice that survived the primary infection with F. tularensis LVS were protected also against further secondary challenge with a highly virulent strain of F. tularensis subsp. tularensis SchuS4. Moreover, the first evidence of combination of successful passive transfer of immunity by specific antisera and subsequent active immunization of immunocompromised animals is demonstrated. In summary, we demonstrate that B cell-mediated effector responses together with the induction of T cell-mediated immunity both play an important role in naïve and also in immunocompromised mice and this fact it would be appropriate to take into the account in the design of new vaccines.
在弗朗西斯氏菌(F. tularensis)感染过程中,抗体的作用仍然是一个有争议的话题。对于开发针对弗朗西斯氏菌强毒株感染的有效预防程序而言,了解体液免疫的作用至关重要,而目前我们对其的了解还很有限。我们利用γ射线照射小鼠模型来研究抗 F. tularensis 抗体在保护中的作用,以便部分消除细胞反应。该模型还可以展示免疫功能低下宿主对细胞内细菌感染的反应。剂量大于 3 Gy 的γ射线照射会完全破坏对感染的抵抗力,并导致小鼠细胞因子产生失衡。在这项研究中,我们证明了被动转移免疫血清可保护照射后的小鼠免受随后感染弗朗西斯氏菌亚种 holarctica 菌株。BALB/c 或 C3H/CBi 品系的新生小鼠在感染致死剂量的 LVS 或 15 株之前两小时,被动转移来自用活疫苗株(LVS)F. tularensis LVS、F. tularensis 亚种 holarctica 菌株 15、热灭活 LVS 或热灭活 15 株免疫的小鼠的血清。来自免疫小鼠的血清被动转移赋予了未照射和亚致死剂量照射的新生未免疫小鼠对 F. tularensis LVS 或 15 株的低致死剂量感染的完全保护,在所有实验变体中都是如此。此外,在原发性 F. tularensis LVS 感染中幸存下来的被动保护小鼠也对高毒力的 F. tularensis 亚种 tularensis SchuS4 进行了进一步的二次攻击。此外,首次证明了通过特异性抗血清成功传递免疫和随后对免疫功能低下动物进行主动免疫的结合。总之,我们证明了 B 细胞介导的效应反应以及 T 细胞介导的免疫的诱导在未免疫和免疫功能低下的小鼠中都发挥了重要作用,这一事实在设计新疫苗时应予以考虑。
