Preparation and Application of Rabbit Polyclonal Antibodies against Elizabethkingia meningosepticum on Frogs
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摘要:
目的 制备蛙类脑膜脓毒性伊丽莎白菌多克隆抗体,建立间接ELISA检测方法,进行病原菌在宿主体内的示踪研究,为病原菌的致病机理研究奠定基础。 方法 将分离自患歪头病的棘胸蛙的脑膜脓毒性伊丽莎白菌(Elizabethkingia meningosepticum)RsB1151018NA甲醛灭活后,免疫新西兰大白兔制备兔抗血清。通过优化反应条件,建立脑膜脓毒性伊丽莎白菌间接ELISA的检测方法;兔抗血清多克隆抗体采用Protein A亲和层析柱分离纯化,以异硫氰酸荧光素(FITC)标记,标记后的抗体与感染RsB1151018NA的棘胸蛙不同脏器组织的冷冻切片反应,荧光显微镜观察,跟踪RsB1151018NA在棘胸蛙体内的迁移。 结果 试验结果表明,制备的兔抗棘胸蛙脑膜脓毒性伊丽莎白菌多克隆抗体血清效价为1∶5.12×105,纯化后的抗体效价为1∶1.6×104,且建立的间接ELISA方法检测脑膜脓毒性伊丽莎白菌具有高度特异性,与其他水产常见病原菌没有交叉反应,检测灵敏度为1.0×104 CFU·mL−1。脑膜脓毒性伊丽莎白菌在棘胸蛙体内随血液循环而分布至全身,可侵袭肌肉、肝脏、肾脏、脾脏、肠道、心脏、眼和脑等组织器官,肾脏、眼和脑感染程度最严重,推测这三个组织器官是其靶器官;创伤感染是可能的感染途径之一。 结论 建立的检测方法能够快速、灵敏、特异地检测脑膜脓毒性伊丽莎白菌,对蛙类歪头病的防控和早期诊断可提供理论参考依据;另外利用免疫荧光检测病原菌在宿主体内的迁移,研究病原的致病机理及发病过程等,能为防治药物的研发和防治方法的确定提供理论依据。 -
关键词:
- 脑膜脓毒性伊丽莎白菌 /
- 多克隆抗体 /
- 酶联免疫反应 /
- 检测 /
- 蛙“歪头病”
Abstract:Objective Rabbit polyclonal antibodies against Elizabethkingia meningosepticum (Em) were prepared to establish an indirect ELISA detection to trace the pathogenic attack in organs of frogs (Rana spp). Method The strain RsB1151018NA of Em from a diseased R. spinosa was isolated, formalin-inactivated, and injected into a rabbit for the serum preparation. An optimized indirect ELISA using the rabbit polyclonal antibodies was developed for tracing RsB1151018NA. The rabbit immunoglobulin G was purified on a protein A column. The purified antibodies were marked with FITC and further purified on a desalting column Sephadex G-25 for subsequently tracing the pathogen in organs of the inoculated frogs. Results The obtained rabbit polyclonal antibodies showed a titer up to 1 ∶ 5.12×105, and 1 ∶ 1.6×104 after purification. The indirect ELISA assay on the polyclonal antibody was specific and sensitive in detecting Em without cross-reaction on other bacteria. It had a detection limit of 1.0×104 cfu·mL−1. According to the in vivo tracing test, RsB1151018NA distributed throughout the entire frog body by blood circulation with the most serious infections in the kidney, eyes, and brain. Conclusion The optimized indirect ELISA detection of Em was rapid, sensitive, and specific in tracing the bacterial infection on R. spp. It was considered applicable for early diagnosis of the “crooked-head disease” and breeding of healthy frogs for food and medicine. -
图 1 兔抗血清亲和层析纯化图谱
Figure 1. Chromatography of polyclonal antibody purified by protein A affinity method
图 2 兔抗血清纯化效果分析
注:1:蛋白marker 2:纯化抗体。
Figure 2. SDS-PAGE analysis on purified polyclonal antibody
Note: Lane l: protein marker; Lane 2: purified polyclonal antibodies.
图 3 Sephadex G-25脱盐柱纯化FITC标记抗体
Figure 3. Purification of IgG-FITC-marked antibodies with desalting column Sephadex G-25
表 1 用于抗体特异性测定的菌株
Table 1. Bacterium used for ELISA detection
菌株
Strain细菌种类
Bacterial speciesLCCiL90625NA-C 脑膜脓毒性伊丽莎白菌 E. meningosepticum ATCC13525 荧光假单胞菌 Pesudomonas fluorescens ATCC9027 铜绿假单胞菌 P. aeruginosa ML316 嗜水气单胞菌 Aeromonas hydrophila Ah0081 嗜水气单胞菌 A. hydrophila Ac60324 豚鼠气单胞菌 A. caviae 96-5 温和气单胞菌 A. sobria Fp60325NA 温和气单胞菌 A. sobria LCCiL90625NA 类志贺邻单胞菌 Plesiomonas shigelloides ATCC17802 副溶血弧菌 Vibrio parahaemolyticus FJ04-L1 创伤弧菌 V. vulnificus Js60517NA1 溶藻弧菌 V. alginolyticus AL60306NA1 迟缓爱德华氏菌 Edwardsiella tarda 
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表 2 兔抗多克隆抗体血清效价分析
Table 2. Titer of polyclonal antibody against Em
样品 Samples OD450 结果判定 Result 空白血清 0.1919 NC 1∶500 2.968 + 1∶2000 2.907 + 1∶8000 2.889 + 1∶32000 2.885 + 1∶128000 2.547 + 1∶512000 1.201 + 1∶2048000 0.36 − 注:NC,阴性对照,“+”表示阳性,“−”表示阴性,S/N≥2.1为阳性。
Note:“NC”indicates negative control, “+” indicates positive,“−” indicates negative, S/N≥2.1 represent for positive.
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表 3 兔多抗检测灵敏度分析
Table 3. Sensitivity of indirect ELISA assay in detecting RsB1151018NA
包被含量
Coating concentration/CFU·mL−1P/N 结果判定
Result阴性对照 1 − 1×108 42.1 + 1×107 18.2 + 1×106 7.58 + 1×105 5.06 + 1×104 3.38 + 1×103 1.66 − 注:“+”表示阳性,“−”表示阴性。
Note: +: positive; −: negative.
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表 4 纯化后抗体效价分析测定
Table 4. Titer of purified polyclonal antibody against Em
样品 Samples OD450 结果判定 Result 1︰500 2.779 + 1︰1 000 2.284 + 1︰2 000 1.963 + 1︰4 000 1.482 + 1︰8 000 1.067 + 1︰16 000 0.643 + 1︰32 000 0.415 − 空白血清 0.268 NC 注:NC,阴性对照,“+”表示阳性,“−”表示阴性,S/N≥2.1为阳性。
Note: NC: negative control; +: positive; −: negative; S/N≥2.1 indicates positive.
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表 5 多克隆抗体检测特异性分析
Table 5. Specificity of polyclonal antibody against RsB1151018NA
菌株
Strain细菌种类
Bacterial speciesOD450 nm 判定结果
ResultRsB11518018NA 脑膜脓毒性伊丽莎白菌
E.meningosepticum0.362 + LCCiL90625NA-C 脑膜脓毒性伊丽莎白菌
E. meningosepticum0.335 + ATCC13525 荧光假单胞菌
Pesudomonas fluorescens0.197 − ATCC9027 铜绿假单胞菌
P. aeruginosa0.192 − ML316 嗜水气单胞菌Aeromonas hydrophila 0.186 − Ah0081 嗜水气单胞菌
A. hydrophila0.185 − Ac60324 豚鼠气单胞菌
A. caviae0.187 − 96-5 温和气单胞菌
A. sobria0.190 − Fp60325NA 温和气单胞菌
A. sobria0.193 − LCCiL90625NA 类志贺邻单胞菌
Plesiomonas shigelloides0.187 − ATCC17802 副溶血弧菌
Vibrio parahaemolyticus0.194 − FJ04-L1 创伤弧菌
V. vulnificus0.189 − Js60517NA1 溶藻弧菌
V. alginolyticus0.195 − AL60306NA1 迟缓爱德华氏菌
Edwardsiella tarda0.208 − 阴性对照 5% 脱脂奶粉
5%dried separated milk0.106 NC 注:“+”表示阳性,“−”表示阴性
Note: +: positive; −: negative.
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表 6 FITC标记抗体效价测定
Table 6. Titer of purified IgG-FITC antibodies against Em
样品 Samples OD450 结果判定 Result 1∶50 2.287 + 1∶100 1.906 + 1∶200 1.617 + 1∶400 1.225 + 1∶800 0.781 + 1∶1600 0.567 + 1∶3200 0.342 − 空白血清 Blank serum 0.191 NC 注:NC,阴性对照,“+”表示阳性,“−”表示阴性,S/N≥2.1为阳性。
Note: NC: negative control; +: positive; −: negative; S/N≥2.1 indicates positive.
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表 7 RsB1151018NA体内示踪结果
Table 7. In vivo tracing of RsB1151018NA in frog
时间
Time/h菌数对数(lgN) 肌肉
Muscle血液
Blood肝脏
Liver肾脏
Kidney脾脏
Spleen心脏
Heart肠道
Intestinal眼
Eye脑
Brain6 1.18 0.89 0.41 0.62 0.00 0.66 0.00 0.00 0.00 12 1.08 0.85 0.51 0.93 0.26 0.64 0.00 0.00 0.00 24 0.92 0.83 0.68 1.20 0.41 0.56 0.56 0.41 0.56 36 0.83 0.91 0.75 1.23 0.53 0.45 0.64 0.58 0.83 48 0.41 0.88 0.81 1.16 0.51 0.30 0.51 0.68 0.92 60 0.00 0.83 0.53 0.82 0.45 0.48 0.48 0.72 0.89 72 0.00 0.81 0.30 0.38 0.00 0.00 0.48 0.78 0.90
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