Streptococcus pneumoniae colonizes the human upper respiratory tract, and this asymptomatic colonization is known to precede pneumococcal disease. In this report, chemically defined and semisynthetic media were used to identify the initial steps of biofilm formation by pneumococcus during growth on abiotic surfaces such as polystyrene or glass. Unencapsulated pneumococci adhered to abiotic surfaces and formed a three-dimensional structure about 25 microm deep, as observed by confocal laser scanning microscopy and low-temperature scanning electron microscopy. Choline residues of cell wall teichoic acids were found to play a fundamental role in pneumococcal biofilm development. The role in biofilm formation of choline-binding proteins, which anchor to the teichoic acids of the cell envelope, was determined using unambiguously characterized mutants. The results showed that LytA amidase, LytC lysozyme, LytB glucosaminidase, CbpA adhesin, PcpA putative adhesin, and PspA (pneumococcal surface protein A) mutants had a decreased capacity to form biofilms, whereas no such reduction was observed in Pce phosphocholinesterase or CbpD putative amidase mutants. Moreover, encapsulated, clinical pneumococcal isolates were impaired in their capacity to form biofilms. In addition, a role for extracellular DNA and proteins in the establishment of S. pneumoniae biofilms was demonstrated. Taken together, these observations provide information on conditions that favor the sessile mode of growth by S. pneumoniae. The experimental approach described here should facilitate the study of bacterial genes that are required for biofilm formation. Those results, in turn, may provide insight into strategies to prevent pneumococcal colonization of its human host.

译文

肺炎链球菌定植于人的上呼吸道,已知这种无症状的定植先于肺炎球菌疾病。在此报告中,使用化学定义的半合成介质来识别肺炎球菌在非生物表面 (例如聚苯乙烯或玻璃) 上生长过程中形成生物膜的初始步骤。未包封的肺炎球菌粘附在非生物表面,并形成约25微米深的三维结构,如共聚焦激光扫描显微镜和低温扫描电子显微镜观察到的。发现细胞壁磷壁酸的胆碱残基在肺炎球菌生物膜的发育中起基本作用。使用明确表征的突变体确定了锚定在细胞包膜的磷壁酸上的胆碱结合蛋白在生物膜形成中的作用。结果表明,LytA酰胺酶,LytC溶菌酶,LytB氨基葡萄糖苷酶,CbpA粘附素,PcpA假定粘附素和PspA (肺炎球菌表面蛋白A) 突变体形成生物膜的能力降低,而在Pce磷酸胆碱酯酶中未观察到这种降低或CbpD推定的酰胺酶突变体。此外,封装的临床肺炎球菌分离株形成生物膜的能力受到损害。此外,还证实了细胞外DNA和蛋白质在肺炎链球菌生物膜建立中的作用。综上所述,这些观察结果提供了有关有利于肺炎链球菌无柄生长方式的条件的信息。此处描述的实验方法应有助于研究生物膜形成所需的细菌基因。反过来,这些结果可以提供有关预防人类宿主肺炎球菌定植的策略的见解。

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