Development and Evaluation of CmeC Subunit Vaccine against Campylobacter jejuni.

Ximin Zeng, Fuzhou Xu, Jun Lin
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引用次数: 25

Abstract

Campylobacter jejuni is the leading bacterial cause of human enteritis in many industrialized countries. There is no commercial vaccine against C. jejuni available to date. CmeC is an essential outer membrane component of CmeABC multidrug efflux pump that plays a critical role in antibiotic resistance and in vivo colonization of C. jejuni. CmeC is prevalent in C. jejuni strains and is dramatically induced and immunogenic in vivo. In this study, we analyzed CmeC sequence homology, examined in vitro immune protection of CmeC peptide antibodies, and produced full-length recombinant CmeC (rCmeC) for evaluating immunogenicity and protective efficacy of the CmeC subunit vaccine against C. jejuni using chicken model system. Amino acid sequences of CmeC from 24 diverse C. jejuni strains were determined and subjected to alignment, which revealed that CmeC is highly conserved in C. jejuni with a identity ranging from 97.3% to 100%. CmeC peptide antibodies inhibited the function of CmeABC efflux pump and enhanced susceptibility of C. jejuni to bile salts, the natural antimicrobial present in the intestine. Two full-length rCmeC proteins with N- or C-terminal His tag were produced in E. coli; the N-terminal His-tagged rCmeC with high purity and yield was obtained by single step affinity purification. The purified rCmeC was used in two vaccination trials using a chicken model of C. jejuni infection. Stimulation of CmeC-specific serum IgG responses via oral vaccination required immunization with higher doses of rCmeC (200μg) together with 70μg of mucosal adjuvant mLT (modified E. coli heat-labile enterotoxin). Subcutaneous vaccination of chickens with rCmeC remarkably stimulated both serum IgG and IgA responses. However, CmeC-specific intestinal secretory IgA response was not significantly stimulated regardless of vaccination regimen and the rCmeC vaccination did not confer protection against C. jejuni infection. Together, these findings provide further compelling evidence that CmeC is a promising subunit vaccine candidate against C. jejuni infection. However, the CmeC vaccination regimen should be optimized to enhance CmeC-specific mucosal immune response in for protection against C. jejuni.

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空肠弯曲杆菌CmeC亚单位疫苗的研制与评价。
在许多工业化国家,空肠弯曲杆菌是导致人类肠炎的主要细菌。目前还没有针对空肠梭菌的商业疫苗。CmeC是CmeABC多药外排泵的重要外膜组分,在空肠梭菌的抗生素耐药性和体内定植中起关键作用。CmeC在空肠梭菌中普遍存在,并且在体内具有显著的诱导和免疫原性。本研究分析了CmeC序列同源性,检测了CmeC肽抗体的体外免疫保护作用,并制备了全长重组CmeC (rCmeC),利用鸡模型系统评价了CmeC亚单位疫苗对空肠假单胞菌的免疫原性和保护效果。对24个不同菌株的CmeC氨基酸序列进行比对,结果表明CmeC在空肠c中具有高度保守性,同源性在97.3% ~ 100%之间。CmeC肽抗体抑制了CmeABC外排泵的功能,增强了空肠梭菌对肠道天然抗菌药物胆盐的敏感性。在大肠杆菌中产生了两个带N端或c端His标签的全长rCmeC蛋白;通过一步亲和纯化,获得了高纯度、高产量的n端his标记的rCmeC。纯化的rCmeC用于两次空肠梭菌感染鸡模型的疫苗接种试验。通过口服疫苗接种高剂量rCmeC (200μg)和70μg粘膜佐剂mLT(改性大肠杆菌热不稳定肠毒素)来刺激cmec特异性血清IgG应答需要免疫。皮下接种rCmeC可显著刺激鸡的血清IgG和IgA反应。然而,无论疫苗接种方案如何,rCmeC特异性肠道分泌IgA反应均未显着刺激,并且rCmeC疫苗接种并未赋予对空肠梭菌感染的保护作用。总之,这些发现进一步提供了令人信服的证据,证明CmeC是一种有希望的亚单位疫苗候选物,可用于治疗空肠梭菌感染。然而,应优化CmeC疫苗接种方案,以增强CmeC特异性粘膜免疫反应,以保护对空肠梭菌的保护。
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