Division of Infectious Diseases, Department of Medicine, Center for Health Sciences, School of Medicine, University of California-Los Angeles, Los Angeles, California, USA.
mBio. 2022 Jun 28;13(3):e0068722. doi: 10.1128/mbio.00687-22. Epub 2022 Jun 1.
Mycobacterium tuberculosis infects approximately one-third of the world's population, causing active tuberculosis (TB) in ~10 million people and death in ~1.5 million people annually. A potent vaccine is needed to boost the level of immunity conferred by the current Mycobacterium bovis BCG vaccine that provides moderate protection against childhood TB but variable protection against adult pulmonary TB. Previously, we developed a recombinant attenuated Listeria monocytogenes (rLm)-vectored M. tuberculosis vaccine expressing the M. tuberculosis 30-kDa major secretory protein (r30/Ag85B), recombinant attenuated L. monocytogenes Δ Δ*30 (rLm30), and showed that boosting BCG-primed mice and guinea pigs with rLm30 enhances immunoprotection against challenge with aerosolized M. tuberculosis Erdman strain. To broaden the antigen repertoire and robustness of rLm30, we constructed 16 recombinant attenuated L. monocytogenes vaccine candidates expressing 3, 4, or 5 among 15 selected M. tuberculosis antigens, verified their protein expression, genetic stability, and growth kinetics in macrophages, and evaluated them for capacity to boost protective efficacy in BCG-primed mice. We found that boosting BCG-primed C57BL/6 and BALB/c mice with recombinant attenuated L. monocytogenes multiantigenic M. tuberculosis vaccines, especially the rLm5Ag(30) vaccine expressing a fusion protein of 23.5/Mpt64, TB10.4/EsxH, ESAT6/EsxA, CFP10/EsxB, and r30, enhances BCG-induced protective immunity against M. tuberculosis aerosol challenge. In immunogenicity studies, rLm5Ag(30) strongly boosts M. tuberculosis antigen-specific CD4-positive (CD4) and CD8 T cell-mediated TH1-type immune responses in the spleens and lungs of BCG-primed C57BL/6 mice but does so only weakly in BCG-primed BALB/c mice. Hence, rLm5Ag(30) boosts BCG-primed immunoprotection against M. tuberculosis aerosol challenge in both C57BL/6 and BALB/c mice despite major differences in the magnitude of the vaccine-induced Th1 response in these mouse strains. Given the consistency with which recombinant attenuated L. monocytogenes vaccines expressing the 5 M. tuberculosis antigens in rLm5Ag(30) are able to boost the already high level of protection conferred by BCG alone in two rigorous mouse models of pulmonary TB and the broad CD4 and CD8 T cell immunity induced by rLm5Ag(30), this vaccine holds considerable promise as a new vaccine to combat the TB pandemic, especially for the majority of the world's population immunized with BCG in infancy. TB, one of the world's most important infectious diseases, afflicts approximately 10 million people and kills approximately 1.5 million people annually. The current vaccine, BCG, developed over a century ago, has been administered to about 5 billion people, mostly in infancy, but is only modestly protective. Hence, a vaccine is urgently needed to boost the level of protection afforded by BCG. Herein, we describe a safe potent live vaccine that utilizes as a vector an attenuated strain of Listeria monocytogenes, a bacterium that mimics the intracellular lifestyle of Mycobacterium tuberculosis, the causative agent of TB. The vaccine produces multiple immunologically protective proteins of M. tuberculosis. In two mouse models of pulmonary TB, the vaccine boosts the level of protection afforded by BCG. Thus, this vaccine holds considerable promise as a new vaccine to combat the TB pandemic, especially for the majority of the world's population immunized with BCG.
结核分枝杆菌感染了世界上约三分之一的人口,导致每年约有 1000 万人患有活动性结核病(TB),150 万人死亡。需要一种有效的疫苗来提高目前卡介苗(BCG)疫苗所提供的免疫力水平,BCG 对儿童结核病有一定的保护作用,但对成人肺结核的保护作用各不相同。此前,我们开发了一种重组减毒李斯特菌(Listeria monocytogenes)(rLm)载体结核分枝杆菌疫苗,该疫苗表达结核分枝杆菌 30kDa 主要分泌蛋白(r30/Ag85B),重组减毒李斯特菌Δ Δ*30(rLm30),并表明用 rLm30 增强 BCG 免疫的小鼠和豚鼠可增强对雾化结核分枝杆菌 Erdman 株的免疫保护。为了扩大 rLm30 的抗原谱和稳健性,我们构建了 16 种重组减毒李斯特菌候选疫苗,这些疫苗表达了 15 种结核分枝杆菌抗原中的 3、4 或 5 种,验证了它们的蛋白表达、遗传稳定性和在巨噬细胞中的生长动力学,并评估了它们在增强 BCG 免疫的小鼠中的保护效力的能力。我们发现,用重组减毒李斯特菌多价结核分枝杆菌疫苗,尤其是表达 23.5/Mpt64、TB10.4/EsxH、ESAT6/EsxA、CFP10/EsxB 和 r30 融合蛋白的 rLm5Ag(30) 增强 BCG 免疫的 C57BL/6 和 BALB/c 小鼠的保护免疫力,可增强对结核分枝杆菌气溶胶挑战的保护。在免疫原性研究中,rLm5Ag(30) 在 BCG 免疫的 C57BL/6 小鼠的脾脏和肺部中强烈增强了结核分枝杆菌抗原特异性 CD4 阳性(CD4)和 CD8 T 细胞介导的 TH1 型免疫反应,但在 BCG 免疫的 BALB/c 小鼠中仅微弱增强。因此,rLm5Ag(30) 增强了 BCG 免疫对 C57BL/6 和 BALB/c 小鼠的结核分枝杆菌气溶胶挑战的免疫保护,尽管在这两种小鼠品系中,疫苗诱导的 Th1 反应的幅度存在显著差异。鉴于表达 rLm5Ag(30) 中的 5 种结核分枝杆菌抗原的重组减毒李斯特菌疫苗能够增强 BCG 单独在两种严格的肺结核小鼠模型中提供的高水平保护,以及 rLm5Ag(30) 诱导的广泛的 CD4 和 CD8 T 细胞免疫,该疫苗作为一种新的疫苗对抗结核病流行具有很大的潜力,尤其是对世界上大多数在婴儿期接种 BCG 的人群。结核病是世界上最重要的传染病之一,每年约有 1000 万人患病,约 150 万人死亡。目前的疫苗卡介苗(BCG)是一个多世纪前开发的,已经在大约 50 亿人身上使用,其中大部分是在婴儿时期,但保护效果只是适度的。因此,迫切需要一种疫苗来提高 BCG 的保护水平。在这里,我们描述了一种安全有效的活疫苗,它利用一种减毒李斯特菌(Listeria monocytogenes)作为载体,这种细菌模仿结核分枝杆菌的细胞内生活方式,而结核分枝杆菌是结核病的病原体。疫苗产生了多种免疫保护性结核分枝杆菌蛋白。在两种肺结核小鼠模型中,疫苗增强了 BCG 的保护水平。因此,这种疫苗作为一种新的疫苗来对抗结核病流行具有很大的潜力,尤其是对世界上大多数在婴儿期接种 BCG 的人群。
