血清影响金黄色葡萄球菌多糖的产生和表面蛋白的表达

Advances in biotechnology & microbiology (Newbury, Calif.) Pub Date : 2017-01-01 Epub Date: 2017-03-03 DOI:10.19080/ARGH.2017.02.555589

Nazrul Islam, Khwaja G Hossain, Julia M Ross, Mark R Marten

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引用次数: 0

摘要

背景：金黄色葡萄球菌生物膜在致病过程中发挥着重要作用。细菌生物膜的两个主要成分是多糖细胞间粘附（PIA）和表面蛋白。目前尚不清楚血清存在时对 PIA 和表面蛋白表达的影响。对表面蛋白表达的分析将提供更有效的生物标志物发现，从而开发抗菌治疗药物，应对生物膜相关感染的挑战：方法：将 1 毫升过夜培养物接种到 50 毫升 TSB 中，产生金黄色葡萄球菌 Philips（一种生物膜形成细菌）的二次培养物。在几种浓度的血清中培养细菌，发现 12.5%的血清补充物可提供与正常 TSB（100%）相似的生长曲线。使用一维和二维 SASPAGE 分离蛋白质，并通过纳米液相色谱/质谱鉴定差异表达的蛋白质：结果：在培养基中加入血清后，多糖细胞间粘附物的产生明显增加。我们还发现了两种血清蛋白，即脂蛋白和球蛋白（Fc和Fab），它们仍然附着在细菌蛋白的膜部分上：这些结果有力地证明了血清会影响金黄色葡萄球菌外多糖的表达。

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Blood Serum Affects Polysaccharide Production and Surface Protein Expression in S. Aureus.

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Blood Serum Affects Polysaccharide Production and Surface Protein Expression in S. Aureus.

Background: S. aureus biofilm serves a major role in pathogenesis. Two of the major components of bacterial biofilm are Polysaccharides intercellular adhesions (PIA) and surface proteins. It is not known how PIA and surface proteins expressions are affected in presence of blood serum. Analyses of surface proteins expressions will provide more effective biomarker discovery that might lead to development of antimicrobial therapeutics to meet the challenges of biofilm-related infections.

Method: Secondary cultures of S. aureus Philips, a biofilm-forming bacterium, were generated by inoculating 1 ml of overnight culture into 50 ml of TSB. Bacteria were cultured at several concentrations of blood serum and found that 12.5% supplemented blood serum provide s similar growth curve as normal TSB (100%). One and 2 D SASPAGE were used to separate proteins and the differentially expressed proteins were identified by nano-LC/MS.

Results: Polysaccharide intercellular adhesions production was significantly increased due to the addition of blood serum in the media. We also identified two serum proteins, apolipoprotein and globulin (Fc and Fab), that remained attached with the membrane fraction of bacterial proteins.

Conclusion: These results have strongly demonstrated that blood serum influences the exopolysaccharide expression in S. aureus.

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Advances in biotechnology & microbiology (Newbury, Calif.)

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