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Immobilization-based isolation of capsule-negative mutants of Streptococcus pneumoniae

Daniel Llull

Unité de Recherches Laitières et Génétique Appliquée, INRA, Domaine de Vilvert, 78352 Jouy en Josas CEDEX, France

Correspondence
Saulius Kulakauskas
Saulius.Kulakauskas{at}jouy.inra.fr

The capsular polysaccharide (CPS) is the most important identified virulence factor of Streptococcus pneumoniae, a human pathogen of the upper respiratory tract. One limitation in studies of S. pneumoniae surface virulence factors is the lack of a reliable procedure for isolation of capsule-negative mutants of clinical strains. This paper presents an approach, based on the immobilization of pneumococci in semi-liquid (0·04 % agar) medium, to easily distinguish and select for non-capsulated mutants. A clinical S. pneumoniae type 37 strain was used as a model to show that CPS production results in bacterial immobilization in semi-liquid agar medium and restricts cell sedimentation. Descendants of CPS^– mutants sedimented faster under these conditions and therefore could be separated from immobilized parental cells. The CPS^– phenotype of the obtained mutants was confirmed by both immunoagglutination and immunostaining experiments using specific type 37 capsular antibodies. Complementation of immobilization with the cloned tts gene, encoding type 37 CPS synthase, confirmed that faster sedimentation of mutants was specifically due to loss of the capsule. DNA sequence determination of three independent mutants revealed a point mutation, a 46 nt deletion and a heptanucleotide duplication in the tts gene. Immobilization of strains producing other CPSs (type 2, 3 and 6) also resulted in the appearance of CPS^– mutants, thus showing that immobilization-based isolation is not restricted to type 37 pneumococci. Bacterial growth in semi-liquid medium proved to be a useful model system to identify the genetic consequences of immobilization. The results indicate that immobilization due to CPS may impose selective pressure against capsule production and thus contribute to capsule plasticity.

Present address: Departamento de Microbiología Molecular, Centro de Investigaciones Biológicas (CSIC), Ramiro de Maeztu 9, 28040 Madrid, Spain.

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