MIP3α-RelMtb鼻内DNA疫苗接种可诱导反应性T细胞渗入小鼠和猕猴的肺部

James T Gordy, Jean J Zheng, Amanda R Maxwell, Alannah D Taylor, Styliani Karanika, Rowan E Bates, Heemee Ton, Jacob Meza, Yangchen Li, Jiaqi Zhang, Petros C Karakousis, Richard B Markham
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引用次数: 0

摘要

结核分枝杆菌(Mtb)是肺结核(TB)的致病菌,也是单一传染性有机体导致死亡的主要原因。虽然结核病一般可以治愈,但需要长期和复杂的抗生素治疗,这在很大程度上是由于细菌在抗生素的压力下会转变为持久状态。RelMtb是调节严格反应的主要酶,它有助于Mtb的代谢转变为持久状态。在模型系统中,通过诱导 RelMtb 特异性 T 细胞免疫,并结合使用抗生素杀死分裂中的细菌,以 RelMtb 为靶标的疫苗有望消灭持续存在的细菌。在Mtb感染的小鼠模型中,通过将relMtb与趋化因子巨噬细胞炎症蛋白3α(MIP3α)(一种存在于未成熟树突状细胞上的CC趋化因子受体6型(CCR6)的配体)进行基因融合而制成的疫苗,与缺乏趋化因子成分的疫苗相比,能增强T细胞反应并加速小鼠模型中感染的根除。在这项研究中,对小鼠和猕猴模型进行的免疫原性研究证明,鼻内注射 DNA 形式的 MipRel 疫苗可在一系列免疫接种后增强肺部 T 细胞浸润。此外,尽管在接种 MipRel 和 Rel 疫苗的 PBMCs 中看到了相似的 T 细胞免疫,但与 Rel 组相比,MipRel 组的肺和支气管肺泡灌洗液细胞样本更富含分泌细胞因子的 T 细胞。我们的结论是,MIP-3α融合疫苗的鼻内免疫是使用简单的DNA疫苗制剂引起呼吸道T细胞免疫反应的一种新策略。这种制剂在历来被认为对 DNA 疫苗反应较差的非人灵长类动物模型中具有免疫原性,这表明它在治疗 Mtb 感染方面具有临床应用潜力,并有可能应用于其他呼吸道病原体。未来的研究将进一步确定这种疫苗接种平台的保护效果。
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MIP3α-RelMtb intranasal DNA vaccination induces reactive T-cell infiltration into the lungs in mice and macaques
Mycobacterium tuberculosis (Mtb), the causative agent of tuberculosis (TB), is the leading cause of mortality due to a single infectious organism. While generally curable, TB requires a lengthy and complex antibiotic regimen, due in large part to bacteria that can shift to a persistent state in the presence of antibiotic pressure. RelMtb is the primary enzyme regulating the stringent response, which contributes to the metabolic shift of Mtb to a persistent state. Targeting RelMtb with a vaccine to eliminate persistent bacteria through the induction of RelMtb-specific T-cell immunity in combination with antibiotics to kill dividing bacteria has shown promise in model systems. In a mouse model of Mtb infection, a vaccine created by genetically fusing relMtb to the chemokine macrophage inflammatory protein 3α (MIP3α), a ligand for the CC chemokine receptor type 6 (CCR6) present on immature dendritic cells, has been shown to enhance T-cell responses and accelerate eradication of infection in mouse models compared to a vaccine lacking the chemokine component. In this study, immunogenicity studies in the mouse and rhesus macaque models provide evidence that intranasal administrations of the DNA form of the MipRel vaccine led to enhanced lung infiltration of T cells after a series of immunizations. Furthermore, despite similar T-cell immunity seen in PBMCs between MipRel and Rel vaccinations, lung and bronchoalveolar lavage cell samples are more enriched for cytokine-secreting T cells in MipRel groups compared to Rel groups. We conclude that intranasal immunization with a MIP-3α fusion vaccine represents a novel strategy for use of a simple DNA vaccine formulation to elicit T-cell immune responses within the respiratory tract. That this formulation is immunogenic in a non-human primate model historically viewed as poorly responsive to DNA vaccines indicates the potential for clinical application in the treatment of Mtb infection, with possible application to other respiratory pathogens. Future studies will further characterize the protective effect of this vaccination platform.
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