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重组人BD3-BPI的内毒素中和活性及其在高盐环境中抗菌活性的稳定性

LPS Neutralization Activity and High-Salt Sensitivity of rhBD3-BPI
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摘要 目的:验证重组人BD3-BPI(rhBD3-BPI)是否具有内毒素中和活性,研究其在高盐环境中是否能保持抗菌活性。方法:根据内毒素标准品绘制内毒素活性标准曲线,将100 μL梯度稀释的rhBD3-BPI-与100 μL 10EU/mL脂多糖(LPS)混匀,37℃水浴60min,同时设标准对照(只含10EU/mL LPS的标准品溶液),并以无热源水作为空白对照,采用基质显色法进行鲎试验测定LPS的活性;将6×10^8 CFU/mL的革兰阳性和阴性标准菌株及临床分离的多药耐药菌株接种于含1mg/mL rhBD3-BPI和0~250mmol/L不同浓度NaCl的液体细菌培养基中,37℃培养3h后用10mmol/L磷酸钠按1:1~1:1000的比例稀释,铺LB培养基平板,37℃过夜培养,观察各平板菌落生长情况,计数并计算杀菌率。结果:在5EU/mL的标准内毒素体系中,当rhBD3-BPI的浓度高于4μg/mL时即开始表现出一定的内毒素中和活性,当rhBD3-BPI的浓度分别为16、32 μg/mL时,其内毒素中和率分别为23%和88%,随后rhBD3-BPI对内毒素的中和活性趋于平稳,50 μg/mL的rhBD3-BPI对所有受检菌均表现出100%的杀伤效应。当NaCl浓度低于150mmol/L时,rhBD3-BPI对各受检菌的杀菌活性均未受明显影响;NaCI浓度升高至150-200mmol/L,rhBD3-BPI对各受检菌的杀菌活性有所下降,但其杀伤率仍在90%以上;当NaCl浓度高于200mmol/L时,盐浓度对rhBD3-BPI杀菌活性的影响才较为明显,但即使NaCl浓度达到250mmol/L,rhBD3-BPI的杀菌活性仍保持在85%以上。结论:rh-BD3-BPI具有内毒素中和活性,在高盐环境中具有良好的抗菌活性稳定性。 Objective: To study the lipopolysaacharide(LPS) neutralization activity and high-sah sensitivity of rhBD3-BPI, a recombinant human β-defensin 3(hBD3) and bactericidal permeability-increasing protein(BPI) fusion protein. Methods: Standard curve of LPS activity was created using Limulus Amebocyte Lasate test based on standard LPS product. 100 μL serially diluted rhBD3-BPI was mixed with 100 μL 10 EU/mL LPS and incubated in water for 60 minutes at 37℃. 10 EU/mL LPS served as control and water served as blank control. 6×10^8 CFU/mL standard or clinically isolated wild Gram-positive or-negative bacterial strains were incubated at 37℃ for 3 h in 1 mg/mL rhBD3-BPI supplemented with 0~250 mmol/L of NaC1 and then diluted at ratios from 1:1 to 1:1000 with 10 mmol/L sodium phosphate. 50 μL cells were plated in LB agar gel and incubated overnight, numbers of bacterial colonies were counted and bactericide rate was calculated. Results: In 5 EU/mL LPS system, LPS activity neutralization was detected when rhBD3-BPI was above 4 μg/mL, 23% and 88% LPS neutralization rates were reached when rhBD3-BPI was 16 and 32 μg/mL, respectively. 50 μg/mL rhBD3-BPI had a 100% bactericidal effect on all the strains. This effect was not influenced by increasing NaCl concentration before reaching 150 mmol/ L. When the concentration of NaCl reached 200 mmol/L, the bactericidal effect remained above 90%. Significant decrease only appeared when the concentration of NaCl was above 200 mmol/L, however, the bactericidal effect of rhBD3- BPI remained above 85% even at the NaCl concentration of 250 mmol/L. Conclusion: rhBD3-BPI can neutralize LPS and has a stable bactericidal activity in high-salt solutions.
作者 庹晓晔 蒋伟 李杰之 柴家科 郭希民
机构地区 解放军总医院第一附属医院烧伤科 解放军总医院第一附属医院检验科 军事医学科学院基础医学研究所
出处 《生物技术通讯》 CAS 2013年第6期814-818,共5页 Letters in Biotechnology
关键词 重组人BD3-BPI 内毒素中和活性 高盐敏感性 抗菌活性 rhBD3-BPI LPS neutralization activity high-salt sensitivity bactericidal activity
分类号 Q78 [生物学—分子生物学] R392.1 [医药卫生—免疫学]
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参考文献15

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生物技术通讯
2013年 第6期

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