Coccidiosis is caused by apicomplexan protozoa of the genus Eimeria, which invade chicken intestinal epithelial cells, resulting in gut damage and a major poultry welfare problem worldwide. In this study, we developed a Bacillus subtilis (B. subtilis)-based vaccine delivering E. acervulina profilin (3-1E) antigen to induce protective immunity against coccidiosis in the host. A library of pBE-S-3-1E plasmid was constructed by subcloning a 3-1E open reading frame into the shuttle vector pBE-S. This library comprised approximately 900 recombinants, all expressing and secreting 3-1E, but each recombinant contained a distinct signal peptide. Following three rounds of screening using 3-1E-specific monoclonal antibodies (mAbs), 25 higher expressor recombinants were isolated and sequenced to identify the signal peptide driving 3-1E expression. From these 25 candidates, four high-expressing recombinants (#147, #241, #285-2, and #879), along with the empty vector (EV), were selected for further in vitro and in vivo assays. All recombinant clones sporulated, but clone #241 germinated at a higher rate compared to the others. Secretion of 3-1E by all germinated recombinant clones was confirmed by western blot and indirect ELISA, and further visualized by immunofluorescence assay (IFA). The conditioned media of all recombinants induced nitrite release that were neutralized by 3-1E mAb (#320) and induced significant expression of chicken IL-4, IL-6, TNF-α, IL-10 and IFN-γ (p<0.05) in HD11 macrophage cells. In vitro, phagocytosis of 3-1E recombinants by HD11 cells was significantly decreased in the following order #147> #241> #285-2> #879 compared to EV (P<0.0001). Finally, a pilot trial (N=30) was conducted to evaluate humoral and cellular immune responses in broiler chickens which were orally immunized with recombinant spores, as well as to assess spore persistence in chicken ceca in vivo. Chickens immunized with all recombinant spores exhibited significantly higher serum IgY and cecal sIgA levels to recombinant 3-1E protein compared to EV group (P<0.0001). Furthermore, splenocytes from immunized chickens demonstrated significantly increased proliferation when stimulated with recombinant 3-1E protein compared to the EV group. All colonies collected from the ceca of chickens immunized with 3-1E-recombinant spores at 10 days post-immunization were identified as positive by colony PCR.

Keywords: B. subtilis; Broiler; Coccidiosis; Eimeria spp.; Profilin.

Copyright © 2025. Published by Elsevier Inc.

球虫病是由艾美尔属（Eimeria）的顶复门原生动物引起的，这种病原体会侵入鸡肠道上皮细胞，导致肠道损伤，并成为全球家禽福利的主要问题。在这项研究中，我们开发了一种基于枯草芽孢杆菌（Bacillus subtilis, B. subtilis）的疫苗，通过递送艾美尔属物种Eimeria acervulina的profilin (3-1E) 抗原，在宿主体内诱导对球虫病的保护性免疫。我们构建了一个包含将3-1E开放阅读框插入穿梭载体pBE-S中的质粒库（pBE-S-3-1E）。该库包括约900个重组体，它们均表达并分泌3-1E蛋白，但每个重组体含有不同的信号肽。使用针对3-1E的单克隆抗体（mAbs）进行三轮筛选后，分离出25个更高表达的重组体，并对其进行测序以识别驱动3-1E表达的信号肽。从这25个候选者中选择四个高表达的重组体（#147, #241, #285-2和#879），以及空载体(EV)进行进一步的体外和体内实验。所有重组克隆均孢子化，但克隆#241的萌发率高于其他克隆。通过Western blot和间接ELISA确认了所有萌发的重组克隆分泌3-1E蛋白，并通过免疫荧光测定法（IFA）进一步可视化。所有重组体的培养上清液诱导了硝酸盐释放，这些信号被3-1E mAb(#320)中和，并在HD11巨噬细胞系中显著上调鸡IL-4、IL-6、TNF-α、IL-10 和 IFN-γ (p #241 > #285-2 > #879（与EV相比，P

关键词： B. subtilis；肉鸡；球虫病；艾美尔属物种；profilin.

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