大口黑鲈鱼诺卡氏菌传代弱毒株特性及免疫效果评价

CHARACTERISTICS AND IMMUNOPROTECTIVE EFFECTS OF ATTENUATED NOCARDIA SERIOLAE FROM LARGEMOUTH BASS INDUCED BY CONTINUOUS PASSAGING

  • 摘要: 为探究鰤鱼诺卡氏菌(Nocardia seriolae)强毒株LY20810 F1与其传代弱毒株LY20810 F110的特性差异, 比较了两个菌株的生物学特征、毒力基因序列、致病力及引起大口黑鲈免疫反应的差异, 并评价了弱毒株LY20810 F110对大口黑鲈的免疫保护效果。结果表明, 通过BHI培养基连续传代培养110代次后, 菌株LY20810 F110的菌落、菌体形态发生显著变化, 其生长速度较原始毒株LY20810 F1快1倍以上。通过比较两株菌的10个毒力基因序列, 发现菌株LY20810 F110的SodCESAT6基因发生了单位点突变。致病力测试结果显示, 强毒株LY20810 F1以0.1 mL 1×107 cfu/mL攻毒剂量感染大口黑鲈, 30d内鱼累积死亡率为100%, 而传代弱毒株LY20810 F110在相同剂量下未造成鱼死亡。强毒株LY20810 F1攻毒3d后引起脾脏、头肾中IL-1β 、IL-10、TNF-α、IFN-γ等炎症细胞因子显著上调, 表明细菌感染引起炎症风暴。传代弱毒株LY20810 F110在感染中后期(14d和28d)诱导包括IgM、CD4-α、CD8-α、MHCI-α等8种免疫因子的上调。免疫效果评价结果显示, 弱毒株LY20810 F110的注射、浸泡免疫(1×108 cfu/mL)对大口黑鲈的相对保护率分别为75.0%和66.7%, 有效降低了鰤鱼诺卡氏菌入侵造成大口黑鲈脾脏和头肾的病理损伤。以上结果表明, 鰤鱼诺卡氏菌传代弱毒株LY20810 F110是安全有效的弱毒疫苗候选株, 将为诺卡氏菌减毒疫苗的研制提供科学依据。

     

    Abstract: To investigate the distinctions between the highly virulent Nocardia seriolae strain LY20810 F1 and its counterpart LY20810 F110, induced through prolonged passages, a comparative analysis was conducted encompassing biological traits, virulence gene sequences, pathogenicity, and induced host immune responses. Furthermore, the immunoprotective effects of the attenuated strain LY20810 F110 on largemouth bass were evaluated. The results showed significant discrepancies in colony morphology, cell morphology, and growth rate between the attenuated strain LY20810 F110, induced through 110 continuous passages in BHI medium, and the wild-type strain LY20810 F1. Analysis of 10 virulence gene sequences demonstrated single non-synonymous mutations in genes SodC and ESAT6 of strain LY20810 F110. Pathogenicity testing exhibited that while the highly virulent strain LY20810 F1 induced 100% mortality in largemouth bass within 30d at a dose of ×107 cfu/mL, the attenuated strain LY20810 F110 did not cause fish mortality at the same infection dose. Upon infection, strain LY20810 F1 prompted significant upregulation of inflammatory cytokines, including IL-1β, IL-10, TNF-α, and IFN-γ in the spleen and head kidneys of largemouth bass after 3d, indicating an inflammatory response. Conversely, strain LY20810 F110 induced upregulation of eight immune factors, such as IgM, CD4-α, CD8-α, MHCI-α at 14d and 28d. Immune protection tests demonstrated the efficacy of both injection and bath vaccination with strain LY20810 F110 (1×108 cfu/mL) in safeguarding largemouth bass spleen and head kidneys from pathological damage caused by N. seriolae infection. Relative protection rates for largemouth bass were 75% and 66.7% for injection and bath vaccination, respectively. The above findings indicated that the attenuated strain LY20810 F110holds promise as a candidates for live vaccine development to control fish nocardiosis in aquaculture. The study provides a scientific foundation for the development of attenuated Nocardia vaccines.

     

/

返回文章
返回