一种微波辐照无乳链球菌疫苗对尼罗罗非鱼的实验攻毒提供部分保护

D. Pasnik, J. J. Evans, P. Klesius
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引用次数: 9

摘要

与福尔马林暴露相反,微波辐照在制备灭活疫苗中并未常规使用,尽管微波辐照具有化学毒性降低、能够快速杀死细胞、只需标准微波即可完成、以及在辐照期间可能增加蛋白质保存的优点。研究了微波照射与福尔马林固定细菌对5克鱼腹腔注射(IP)和浴浸(BI)提高无乳链球菌疫苗效力的可能性。在BI (p < 0.2026)和IP (p < 0.1372)试验中,微波杀伤细胞(MKC)和福尔马林杀伤细胞(FKC)在攻毒后的累积死亡率(CPM)无显著差异。经胰蛋白酶豆汤(TSB)接种的假鱼CPM显著高于IP试验中的FKC和MKC CPM,显著高于BI试验中的FKC CPM (p < 0.0019)。接种前从鱼中获得的血清显示出最低的抗s。无乳酶抗体活性。接种后30天和攻毒前,IP试验中FKC和MKC组的光密度(OD)水平显著高于TSB组(p < 0.0001)。在BI试验中,没有一个组在接种疫苗后显示出明显不同的OD水平。攻毒14 d后,两组大鼠OD水平均显著高于攻毒前水平。FKC和MKC IP组(p < 0.0001)和FKC BI组(p < 0.0351)的OD水平显著高于攻毒后TSB组。这些结果表明,与经BI处理的MKC疫苗相比,FKC疫苗具有更强的保护作用和更高的抗体浓度,MKC疫苗可能成为FKC疫苗的非化学替代品。
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A Microwave-Irradiated Streptococcus agalactiae Vaccine Provides Partial Protection against Experimental Challenge in Nile Tilapia, Oreochromis niloticus
Microwave irradiation, as opposed to formalin exposure, has not routinely been used in the preparation of killed vaccines despite the advantages of decreased chemical toxicity, ability to kill cells quickly, ease of completion requiring only a standard microwave, and potential increased protein conservation during irradiation. We evaluated the potential of microwave irradiation versus formalin fixation of bacteria to improve Streptococcus agalactiae vaccine efficacy in 5 gr fish by intraperitoneal (IP) injection and bath immersion (BI). There was no significant difference in the cumulative percent mortality (CPM) post-challenge between fish administered microwave-killed cells (MKC) or formalin killed cells (FKC) within the BI (p < 0.2026) or IP (p < 0.1372) trials. The CPM in fish sham-vaccinated with tryptic soy broth (TSB) was significantly higher than both the FKC and MKC CPM in the IP trial and the FKC CPM (p < 0.0019) in the BI trial. Serum obtained from fish prior to vaccination exhibited minimal anti-S. agalactiae antibody activity. Thirty days after vaccination and just prior to challenge, the optical density (OD) levels of the FKC and MKC groups in the IP trials were significantly higher (p < 0.0001) than that of the TSB group. None of the groups in the BI trial exhibited significantly different OD levels post vaccination. Fourteen days after the challenge, the OD levels of all groups in both trials increased significantly above their pre-challenge levels. Both the FKC and MKC IP groups (p < 0.0001) and only the FKC BI group (p < 0.0351) had significantly increased OD level above that of the corresponding post-challenge TSB group. These results indicate that the FKC vaccine provides marginally greater protection and increased antibody concentrations than the MKC vaccine by BI and the MKC vaccine may become a non-chemical alternative to FKC in vaccination.
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