葡萄球菌聚-N-乙酰葡糖胺表面多糖的免疫化学性质
Immunochemical properties of the staphylococcal poly-N-acetylglucosamine surface polysaccharide.
作者信息
Maira-Litrán Tomás, Kropec Andrea, Abeygunawardana C, Joyce Joseph, Mark George, Goldmann Donald A, Pier Gerald B
机构信息
Channing Laboratory, Department of Medicine, Brigham and Women's Hospital, Boston, Massachusetts, USA.
出版信息
Infect Immun. 2002 Aug;70(8):4433-40. doi: 10.1128/IAI.70.8.4433-4440.2002.
Staphylococcus aureus and Staphylococcus epidermidis often elaborate adherent biofilms, which contain the capsular polysaccharide-adhesin (PS/A) that mediates the initial cell adherence to biomaterials. Biofilm cells produce another antigen, termed polysaccharide intercellular adhesin (PIA), which is composed of a approximately 28 kDa soluble linear beta(1-6)-linked N-acetylglucosamine. We developed a new method to purify PS/A from S. aureus MN8m, a strain hyperproducing PS/A. Using multiple analytical techniques, we determined that the chemical structure of PS/A is also beta(1-6)-N-acetylglucosamine (PNAG). We were unable to find N-succinylglucosamine residues in any of our preparations in contrast to previously reported findings (D. McKenney, K. Pouliot, Y. Wang, V. Murthy, M. Ulrich, G. Doring, J. C. Lee, D. A Goldmann, and G. B. Pier, Science 284:1523-1527, 1999). PNAG was produced with a wide range of molecular masses that could be divided into three major fractions with average molecular masses of 460 kDa (PNAG-I), 100 kDa (PNAG-II), and 21 kDa (PNAG-III). The purified antigens were not soluble at neutral pH unless first dissolved in 5 M HCl and then neutralized with 5 M NaOH. PNAG-I was very immunogenic in rabbits, but the responses of individual animals were variable. Immunization of mice with various doses (100, 50, or 10 microg) of PNAG-I, -II, and -III demonstrated that only PNAG-I was able to elicit an immunoglobulin G (IgG) immune response with the highest titers obtained with 100-microg dose. When we purified a small fraction of PNAG with a molecular mass of approximately 780 kDa (PNAG-780) from PNAG-I, significantly higher IgG titers than those in mice immunized with the same doses of PNAG-I were obtained, suggesting the importance of the molecular mass of PNAG in the antibody response. These results further clarify the chemical structure of PS/A and help to differentiate it from PIA on the basis of immunogenicity, molecular size, and solubility.
金黄色葡萄球菌和表皮葡萄球菌常常形成附着性生物膜,其中含有介导细胞最初黏附于生物材料的荚膜多糖黏附素(PS/A)。生物膜细胞产生另一种抗原,称为胞间多糖黏附素(PIA),它由一种分子量约为28 kDa的可溶性线性β(1-6)-连接的N-乙酰葡糖胺组成。我们开发了一种从高产PS/A的金黄色葡萄球菌MN8m菌株中纯化PS/A的新方法。使用多种分析技术,我们确定PS/A的化学结构也是β(1-6)-N-乙酰葡糖胺(PNAG)。与先前报道的结果(D. McKenney、K. Pouliot、Y. Wang、V. Murthy、M. Ulrich、G. Doring、J. C. Lee、D. A Goldmann和G. B. Pier,《科学》284:1523 - 1527,1999)相反,我们在任何制备物中都未发现N-琥珀酰葡糖胺残基。PNAG以多种分子量产生,可分为三个主要部分,平均分子量分别为460 kDa(PNAG-I)、100 kDa(PNAG-II)和21 kDa(PNAG-III)。纯化的抗原在中性pH下不溶,除非先溶解于5 M HCl中,然后用5 M NaOH中和。PNAG-I在兔子中具有很强的免疫原性,但个体动物的反应存在差异。用不同剂量(100、50或10 μg)的PNAG-I、-II和-III免疫小鼠表明,只有PNAG-I能够引发免疫球蛋白G(IgG)免疫反应,100 μg剂量获得的滴度最高。当我们从PNAG-I中纯化出一小部分分子量约为780 kDa的PNAG(PNAG-780)时,获得的IgG滴度明显高于用相同剂量PNAG-I免疫的小鼠,这表明PNAG分子量在抗体反应中的重要性。这些结果进一步阐明了PS/A的化学结构,并有助于根据免疫原性、分子大小和溶解性将其与PIA区分开来。
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