LETHAL TOXIN NEUTRALIZING ANTIBODY RESPONSE INDUCED FOLLOWING ORAL VACCINATION WITH A MICROENCAPSULATED BACILLUS ANTHRACIS STERNE STRAIN 34F2 VACCINE PROOF-OF-CONCEPT STUDY IN WHITE-TAILED DEER (ODOCOILEUS VIRGINIANUS).

IF 0.7 4区农林科学 Q3 VETERINARY SCIENCES Journal of Zoo and Wildlife Medicine Pub Date : 2024-03-01 DOI:10.1638/2023-0065

Jamie S Benn, Chase M Nunez, Alice Blue-McLendon, Sankar P Chaki, Thomas A Ficht, Allison C Rice-Ficht, Walter E Cook

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Abstract

Improved methods are needed to prevent wildlife deaths from anthrax. Caused by Bacillus anthracis, naturally occurring outbreaks of anthrax are frequent but unpredictable. The commercially available veterinary vaccine is labeled for subcutaneous injection and is impractical for large-scale wildlife vaccination programs; therefore, oral vaccination is the most realistic method to control and prevent these outbreaks. We reported the induction of an anthrax-specific lethal toxin (LeTx) neutralizing antibody response in mice following oral vaccination with alginate microcapsules containing B. anthracis Sterne strain 34F2 spores, coated with poly-L-lysine (PLL) and vitelline protein B (VpB). We continued evaluating our novel vaccine formulation through this proof-of-concept study in white-tailed deer (WTD; Odocoileus virginianus; n = 9). We orally vaccinated WTD via needle-free syringe with three formulations of the encapsulated vaccine: 1) PLL-VpB-coated microcapsules with 10^7-8 spores/ml (n = 5), 2) PLL-VpB-coated microcapsules with 10^9-10 spores/ml (n = 2), and 3) PLL-coated microcapsules with 10^9-10 spores/ml (n = 2). Although the limited sample sizes require continued experimentation, we observed an anthrax-specific antibody response in WTD serum following oral vaccination with PLL-coated microcapsules containing 10⁹ spores/ ml. Furthermore, this antibody response neutralized anthrax LeTx in vitro, suggesting that continued development of this vaccine may allow for realistic wildlife anthrax vaccination programs.

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白尾鹿（odocoileus virginianus）口服微囊炭疽杆菌 Sterne 株 34f2 疫苗后诱导的致死毒素中和抗体反应的概念验证研究。

需要改进方法来防止野生动物死于炭疽病。炭疽病由炭疽杆菌引起，自然爆发的炭疽病很频繁，但无法预测。市场上销售的兽用疫苗标注为皮下注射，不适合大规模野生动物疫苗接种计划；因此，口服疫苗接种是控制和预防疫情爆发的最现实的方法。我们曾报道过小鼠口服含有炭疽杆菌 Sterne 菌株 34F2 孢子的藻酸盐微胶囊（涂有聚 L-赖氨酸 (PLL) 和玻璃体蛋白 B (VpB)）疫苗后，可诱导出炭疽特异性致死毒素 (LeTx) 中和抗体反应。我们继续通过这项白尾鹿（WTD；Odocoileus virginianus；n = 9）概念验证研究来评估我们的新型疫苗配方。我们通过无针注射器为白尾鹿口服了三种配方的封装疫苗：1）107-8 个孢子/毫升的 PLL-VpB 包被微胶囊（n = 5）；2）109-10 个孢子/毫升的 PLL-VpB 包被微胶囊（n = 2）；3）109-10 个孢子/毫升的 PLL 包被微胶囊（n = 2）。虽然样本量有限，需要继续实验，但我们观察到，口服含 109 个孢子/毫升的 PLL 包被微胶囊后，WTD 血清中出现了炭疽特异性抗体反应。此外，这种抗体反应还能在体外中和炭疽 LeTx，这表明继续开发这种疫苗可以实现现实的野生动物炭疽疫苗接种计划。

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来源期刊

Journal of Zoo and Wildlife Medicine 农林科学-兽医学

CiteScore

1.70

自引率

14.30%

发文量

审稿时长

9-24 weeks

期刊介绍： The Journal of Zoo and Wildlife Medicine (JZWM) is considered one of the major sources of information on the biology and veterinary aspects in the field. It stems from the founding premise of AAZV to share zoo animal medicine experiences. The Journal evolved from the long history of members producing case reports and the increased publication of free-ranging wildlife papers. The Journal accepts manuscripts of original research findings, case reports in the field of veterinary medicine dealing with captive and free-ranging wild animals, brief communications regarding clinical or research observations that may warrant publication. It also publishes and encourages submission of relevant editorials, reviews, special reports, clinical challenges, abstracts of selected articles and book reviews. The Journal is published quarterly, is peer reviewed, is indexed by the major abstracting services, and is international in scope and distribution. Areas of interest include clinical medicine, surgery, anatomy, radiology, physiology, reproduction, nutrition, parasitology, microbiology, immunology, pathology (including infectious diseases and clinical pathology), toxicology, pharmacology, and epidemiology.