Cell Surface of Lactococcus lactis Is Covered by a Protective Polysaccharide Pellicle

Chapot‐Chartier, Marie‐Pierre; Vinogradov, Evgeny; Sadovskaya, Irina; André, Guillaume; Mistou, Michel‐Yves; Trieu-Cuot, Patrick; Furlan, Sylviane; Bidnenko, Elena; Courtin, Pascal; Péchoux, Christine; Hols, Pascal; Dufrêne, Yves F.; Kulakauskas, Saulius

doi:10.1074/jbc.m109.082958

Cited by 150 publications

(221 citation statements)

References 51 publications

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“…Lactobacillus lactis harbors a particular, thick outer layer composed of polysaccharides acting as a protective capsule (45). This polysaccharide envelope conferring to the bacterium a protective barrier against phagocytosis by murine macrophages appears to be restricted to Gram-positive bacteria and might as well serve as a particular constituent involved in recognition by SIgA or SC.…”

Section: Discussionmentioning

confidence: 99%

Recognition of Gram-positive Intestinal Bacteria by Hybridoma- and Colostrum-derived Secretory Immunoglobulin A Is Mediated by Carbohydrates

Mathias

Corthésy

2011

Journal of Biological Chemistry

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Section: Discussionmentioning

confidence: 99%

Recognition of Gram-positive Intestinal Bacteria by Hybridoma- and Colostrum-derived Secretory Immunoglobulin A Is Mediated by Carbohydrates

Mathias

Corthésy

2011

Journal of Biological Chemistry

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“…Image processing was performed using the IMAGIC V software (25). Single-molecule images (18,841) were extracted semiautomatically from raw micrographs using Boxer (26) and corrected for the phase contrast-transfer function (CTF) by phase flipping. Some preferential views were selected by visual inspection and chosen as references using the multireference alignment module of the IMAGIC V software (25).…”

Section: Methodsmentioning

confidence: 99%

“…Combining these results with the EM reconstruction of the "tripod" formed by the TP901-1 BppU-BppL complex, we assigned the positions of four different BP components (BppU, BppL, Dit, and Tal) in the EM maps. Six tripods were fitted into the wild-type BP EM map at its periphery, highlighting its hexagonal symmetry and providing 54 binding sites available for anchoring the phage to its host through phosphosugar receptors (18). This high number of binding sites results in a very large avidity effect, as illustrated by SPR (BIAcore) measurements on a model system consisting of tripod/DARPin (designed ankyrin repeat protein) interactions.…”

mentioning

confidence: 99%

Structure and Molecular Assignment of Lactococcal Phage TP901-1 Baseplate

Bebeacua

Bron

Lai

et al. 2010

Journal of Biological Chemistry

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P335 lactococcal phages infect the Gram؉ bacterium Lactococcus lactis using a large multiprotein complex located at the distal part of the tail and termed baseplate (BP). The BP harbors the receptor-binding proteins (RBPs), which allow the specific recognition of saccharidic receptors localized on the host cell surface. We report here the electron microscopic structure of the phage TP901-1 wild-type BP as well as those of two mutants bppL ؊ and bppU ؊ , lacking BppL (the RBPs) or both peripheral BP components (BppL and BppU), respectively. We also achieved an electron microscopic reconstruction of a partial BP complex, formed by BppU and BppL. This complex exhibits a tripod shape and is composed of nine BppLs and three BppUs. These structures, combined with lightscattering measurements, led us to propose that the TP901-1 BP harbors six tripods at its periphery, located around the central tube formed by ORF46 (Dit) hexamers, at its proximal end, and a ORF47 (Tal) trimer at its distal extremity. A total of 54 BppLs (18 RBPs) are thus available to mediate host anchoring with a large apparent avidity. TP901-1 BP exhibits an infection-ready conformation and differs strikingly from the lactococcal phage p2 BP, bearing only 6 RBPs, and which needs a conformational change to reach its activated state. The comparison of several Siphoviridae structures uncovers a close organization of their central BP core whereas striking differences occur at the periphery, leading to diverse mechanisms of host recognition.The first steps of phage infection require interactions between the phage receptor-binding proteins (RBPs) 2 (1, 2) and the receptors at the host cell surface. Although some RBPs are located at the tip of fibers (3), others belong to an elongated structure, the tail spike (4, 5). In bacteriophages infecting the Gram ϩ bacterium Lactococcus lactis such as p2 (936 group), TP901-1, and Tuc2009 (P335 group), RBPs are part of a large organelle (1-2 MDa) termed the baseplate (BP). We previously solved RBP structures of phages p2 (6, 7) and TP901-1 (8) as well as the RBP C-terminal domain ("head domain") of phage bIL170 (936 group) (9). It appeared that the RBP of phage TP901-1 (termed BppL, lower baseplate protein) was cleaved during crystallization, and the polypeptidic chain in the crystal structure starts either at residue 16 or at residue 32 (10). Proteolytic cleavage was also observed for the homologous RBP from Tuc2009 (11) as well as in the structure of a chimeric RBP comprising the N-terminal and linker domains of phage TP901-1 RBP fused to the C-terminal domain of phage p2 RBP (12). We demonstrated that individually expressed Tuc2009 BppU (upper baseplate protein) and BppL did not interact when mixed, and we attributed this to the proteolytic cleavage of the BppL N terminus that should normally plug into BppU (13). In contrast, co-expression of BppU and BppL yielded a well defined 3:9 complex (13).The BP architecture of the P335 phages TP901-1 and Tuc2009 has been investigated thoroughly using mutagenesis and immuno...

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“…This correlates with a different strategy of adsorption to the host bacterium. P335 and 936 members recognize cell-wall saccharides, putatively lipoteichoic acids (41)(42)(43)(44), or a new type of phosphosaccharide (45). SPP1 (and the lactococcal phage c2 (46)) binds reversibly to saccharides in a first specific step and then interacts irreversibly with the membrane protein YueB (47,48).…”

Section: Dit a Hub In Siphoviridae Infecting Gram-positive Bacteria-mentioning

confidence: 99%

Crystal Structure of Bacteriophage SPP1 Distal Tail Protein (gp19.1)

Veesler

Robin

Lichière

et al. 2010

Journal of Biological Chemistry

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Siphophage SPP1 infects the Gram-positive bacterium Bacillus subtilis using its long non-contractile tail and tail-tip. Electron microscopy (EM) previously allowed a low resolution assignment of most orf products belonging to these regions. We report here the structure of the SPP1 distal tail protein (Dit, gp19.1). The combination of x-ray crystallography, EM, and light scattering established that Dit is a back-to-back dimer of hexamers. However, Dit fitting in the virion EM maps was only possible with a hexamer located between the tail-tube and the tail-tip. Structure comparison revealed high similarity between Dit and a central component of lactophage baseplates. Sequence similarity search expanded its relatedness to several phage proteins, suggesting that Dit is a docking platform for the tail adsorption apparatus in Siphoviridae infecting Gram-positive bacteria and that its architecture is a paradigm for these hub proteins. Dit structural similarity extends also to non-contractile and contractile phage tail proteins (gpV N and XkdM) as well as to components of the bacterial type 6 secretion system, supporting an evolutionary connection between all these devices.

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Cell Surface of Lactococcus lactis Is Covered by a Protective Polysaccharide Pellicle

Cited by 150 publications

References 51 publications

Recognition of Gram-positive Intestinal Bacteria by Hybridoma- and Colostrum-derived Secretory Immunoglobulin A Is Mediated by Carbohydrates

Recognition of Gram-positive Intestinal Bacteria by Hybridoma- and Colostrum-derived Secretory Immunoglobulin A Is Mediated by Carbohydrates

Structure and Molecular Assignment of Lactococcal Phage TP901-1 Baseplate

Crystal Structure of Bacteriophage SPP1 Distal Tail Protein (gp19.1)

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