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在鼠脾细胞中分枝杆菌生长抑制作为抗结核分枝杆菌(M. tb)保护的替代指标。

Mycobacterial growth inhibition in murine splenocytes as a surrogate for protection against Mycobacterium tuberculosis (M. tb).

机构信息

The Jenner Institute, University of Oxford, Old Road Campus Research Building, Roosevelt Drive, Headington, Oxford OX3 7DQ, UK.

出版信息

Tuberculosis (Edinb). 2013 Sep;93(5):551-7. doi: 10.1016/j.tube.2013.04.007. Epub 2013 May 31.

DOI:10.1016/j.tube.2013.04.007
PMID:23726784
Abstract

Development of an improved vaccine against tuberculosis (TB) is hindered by the lack of a surrogate of protection. Efficacy of new TB vaccines in humans can only be evaluated by expensive and time consuming efficacy trials within TB endemic areas. It is critical that vaccines with the greatest potential to protect are selected for these trials. Mycobacterial growth inhibition assays (MGIAs) have been developed with the hope that these in-vitro functional assays will correlate with protection, which could aid in the selection of the best vaccine candidates. The present study describes the use of the BACTEC system to perform MGIAs in mice. We demonstrate reproducible mycobacterial growth inhibition in splenocytes from BCG immunised mice compared with unimmunised mice (P < 0.023), which corresponded with in-vivo efficacy against Mycobacterium tuberculosis (M. tb) challenge. Microarray data showed extensive differential gene expression in splenocyte responses to ex-vivo BCG stimulation between unimmunised and BCG-immunised mice. TH1 responses, including IFN-γ, nitric oxide synthase (NOS2) and Interleukin -17 (IL-17) expression were enhanced in BCG immunised mice, indicating a possible mechanism for mycobacterial growth inhibition. Further investigation into whether the BACTEC MGIA can be used as a surrogate of protection in humans and preclinical animal models is now warranted.

摘要

开发一种改良的结核病 (TB) 疫苗受到缺乏保护替代物的阻碍。新的结核病疫苗在人类中的功效只能通过在结核病流行地区进行昂贵且耗时的功效试验来评估。至关重要的是,为这些试验选择最有潜力保护的疫苗。已经开发了分枝杆菌生长抑制测定 (MGIA),希望这些体外功能测定与保护相关,这可以帮助选择最佳的疫苗候选物。本研究描述了使用 BACTEC 系统在小鼠中进行 MGIAs。我们证明了与未免疫小鼠相比,BCG 免疫小鼠的脾细胞中可重复的分枝杆菌生长抑制(P < 0.023),这与针对结核分枝杆菌(M. tb)挑战的体内功效相对应。微阵列数据分析显示,未免疫和 BCG 免疫小鼠的脾细胞对体外 BCG 刺激的反应存在广泛的差异基因表达。BCG 免疫小鼠中的 TH1 反应增强,包括 IFN-γ、一氧化氮合酶 (NOS2) 和白细胞介素-17 (IL-17) 表达,表明分枝杆菌生长抑制的可能机制。现在有必要进一步研究 BACTEC MGIA 是否可以作为人类和临床前动物模型的保护替代物。

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