Your search keyword '"Dramsi S"' showing total 7 results

1. Entry of Listeria monocytogenes into neurons occurs by cell-to-cell spread: an in vitro study.

Author

Dramsi, S, Lévi, S, Triller, A, and Cossart, P

Abstract

Listeria monocytogenes is an intracellular pathogen that causes severe central nervous system infection in humans and animals. The ability of this bacterium to penetrate nerve cells was investigated by using rat spinal cell cultures. Entry into distinct cell types, i. e., glial cells and neurons, was monitored by a differential immunofluorescence technique with antibodies against cell type-specific markers and the bacterial pathogen. L. monocytogenes was detected predominantly within macrophages constituting the microglia. Astrocytes and oligodendrocytes, the major components of macroglia, were infected to a lesser extent. Surprisingly, Listeria innocua, a noninvasive and nonpathogenic species, also has the capacity to enter into these three types of glial cells. Entry into neurons was a very rare event. In contrast, we found that L. monocytogenes could efficiently invade neurons when these latter cells were cocultivated with Listeria-infected mouse macrophages. In this case, infection of neurons occurs by cell-to-cell spread via an actA-dependent mechanism. These data support the notion that infected phagocytes can be vectors by which L. monocytogenes gains access to privileged niches such as the central nervous system.

Published

1998

2. Nucleotide sequence of the lecithinase operon of Listeria monocytogenes and possible role of lecithinase in cell-to-cell spread

Author

Vazquez-Boland, J A, Kocks, C, Dramsi, S, Ohayon, H, Geoffroy, C, Mengaud, J, and Cossart, P

Abstract

The lecithinase gene of the intracellular pathogen Listeria monocytogenes, plcB, was identified in a 5,648-bp DNA fragment which expressed lecithinase activity when cloned into Escherichia coli. This fragment is located immediately downstream of the previously identified gene mpl (prtA). It contains five open reading frames, named actA, plcB, and ORFX, -Y, and -Z, which, together with mpl, form an operon, since a 5.7-kb-long transcript originates from a promoter located upstream of mpl (J. Mengaud, C. Geoffroy, and P. Cossart, Infect. Immun. 59:1043-1049, 1991). A second promoter was detected in front of actA which encodes a putative membrane protein containing a region of internal repeats. plcB encodes the lecithinase, a predicted 289-amino-acid protein homologous to the phosphatidylcholine-specific phospholipases C of Bacillus cereus and Clostridium perfringens (alpha-toxin). plcB mutants produce only small plaques on fibroblast monolayers, and an electron microscopic analysis of infected macrophages suggests that lecithinase is involved in the lysis of the two-membrane vacuoles that surround the bacteria after cell-to-cell spread. On the opposite DNA strand, downstream of the operon, three more open reading frames, ldh, ORFA, and ORFB, were found. The deduced amino acid sequence of the first one is homologous to lactate dehydrogenases. Low-stringency Southern hybridization experiments suggest that these three open reading frames lie outside of the L. monocytogenes virulence region: mpl and actA were specific for L. monocytogenes, sequences hybridizing to plcB were detected in L. ivanovii and L. seeligeri, and sequences hybridizing to ORFX, -Y, and -Z were found in L. innocua. In contrast to this, sequences hybridizing to ldh or ORFB were detected in all Listeria species (including the nonpathogenic ones).

Published

1992

3. Identification of four new members of the internalin multigene family of Listeria monocytogenes EGD.

Author

Dramsi, S, Dehoux, P, Lebrun, M, Goossens, P L, and Cossart, P

Abstract

Listeria monocytogenes is a bacterial pathogen that is able to invade nonphagocytic cells. Two surface proteins, internalin, the inlA gene product, and InlB, play important roles in the entry into cultured mammalian cells. These proteins also have extensive sequence similarities. Previously, Southern hybridization predicted the existence of an internalin multigene family. Recently, InlC, a secreted protein of 30 kDa homologous to InlA and InlB, was identified. In this work, we identified and characterized four new members of the internalin multigene family, inlC2, inlD, inlE, and inlF which encode proteins of 548, 567, 499, and 821 amino acids respectively. inlC2, inlD, and inlE are contiguous on the chromosome of L. monocytogenes EGD, whereas inlF is located in a different chromosomal region. These four inl gene products display the principal features of internalin, namely, a signal sequence, two regions of repeats (or LRR and B repeats), and a putative cell wall anchor sequence containing the sorting motif LPXTG. The four inl genes were maximally expressed albeit at a low level during early exponential growth in bacterial medium at 37 degrees C. The role of these inl genes in L. monocytogenes invasion was assessed by constructing isogenic chromosomal deletion mutants and testing them for entry into various nonphagocytic cells. Unexpectedly, the inlC2, inlD, inlE, and inlF null mutants were not affected for entry into any of the cell lines tested, raising the possibility that these genes are needed for an aspect of pathogenicity other than invasion. The identity of such an aspect remains to be determined.

Published

1997

4. Evidence that PrfA, the pleiotropic activator of virulence genes in Listeria monocytogenes, can be present but inactive.

Author

Renzoni, A, Klarsfeld, A, Dramsi, S, and Cossart, P

Abstract

All virulence genes of Listeria monocytogenes identified to date are positively regulated by PrfA, a transcriptional activator belonging to the Crp-Fnr family. Low temperature and cellobiose are two environmental signals known to repress expression of virulence genes in L. monocytogenes. In the present work, we analyzed the effect of temperature and cellobiose on the expression of the PrfA protein. At low temperature, PrfA was undetected, although prfA monocistronic transcripts are present. In contrast, PrfA was fully expressed in the presence of cellobiose. These results strongly suggest that virulence gene activation depends on both the presence of PrfA and additional regulatory pathways that either modify PrfA or act synergistically with PrfA.

Published

1997

5. Entry of Listeria monocytogenesinto Neurons Occurs by Cell-to-Cell Spread: an In Vitro Study

Author

Dramsi, S., Lévi, S., Triller, A., and Cossart, P.

Abstract

ABSTRACTListeria monocytogenesis an intracellular pathogen that causes severe central nervous system infection in humans and animals. The ability of this bacterium to penetrate nerve cells was investigated by using rat spinal cell cultures. Entry into distinct cell types, i.e., glial cells and neurons, was monitored by a differential immunofluorescence technique with antibodies against cell type-specific markers and the bacterial pathogen. L. monocytogeneswas detected predominantly within macrophages constituting the microglia. Astrocytes and oligodendrocytes, the major components of macroglia, were infected to a lesser extent. Surprisingly, Listeria innocua, a noninvasive and nonpathogenic species, also has the capacity to enter into these three types of glial cells. Entry into neurons was a very rare event. In contrast, we found that L. monocytogenescould efficiently invade neurons when these latter cells were cocultivated with Listeria-infected mouse macrophages. In this case, infection of neurons occurs by cell-to-cell spread via anactA-dependent mechanism. These data support the notion that infected phagocytes can be vectors by which L. monocytogenesgains access to privileged niches such as the central nervous system.

Published

1998

6. Identification of four new members of the internalin multigene family of Listeria monocytogenes EGD

Author

Dramsi, S, Dehoux, P, Lebrun, M, Goossens, P L, and Cossart, P

Abstract

Listeria monocytogenes is a bacterial pathogen that is able to invade nonphagocytic cells. Two surface proteins, internalin, the inlA gene product, and InlB, play important roles in the entry into cultured mammalian cells. These proteins also have extensive sequence similarities. Previously, Southern hybridization predicted the existence of an internalin multigene family. Recently, InlC, a secreted protein of 30 kDa homologous to InlA and InlB, was identified. In this work, we identified and characterized four new members of the internalin multigene family, inlC2, inlD, inlE, and inlF which encode proteins of 548, 567, 499, and 821 amino acids respectively. inlC2, inlD, and inlE are contiguous on the chromosome of L. monocytogenes EGD, whereas inlF is located in a different chromosomal region. These four inl gene products display the principal features of internalin, namely, a signal sequence, two regions of repeats (or LRR and B repeats), and a putative cell wall anchor sequence containing the sorting motif LPXTG. The four inl genes were maximally expressed albeit at a low level during early exponential growth in bacterial medium at 37 degrees C. The role of these inl genes in L. monocytogenes invasion was assessed by constructing isogenic chromosomal deletion mutants and testing them for entry into various nonphagocytic cells. Unexpectedly, the inlC2, inlD, inlE, and inlF null mutants were not affected for entry into any of the cell lines tested, raising the possibility that these genes are needed for an aspect of pathogenicity other than invasion. The identity of such an aspect remains to be determined.

Published

1997

7. Evidence that PrfA, the pleiotropic activator of virulence genes in Listeria monocytogenes, can be present but inactive

Author

Renzoni, A, Klarsfeld, A, Dramsi, S, and Cossart, P

Abstract

All virulence genes of Listeria monocytogenes identified to date are positively regulated by PrfA, a transcriptional activator belonging to the Crp-Fnr family. Low temperature and cellobiose are two environmental signals known to repress expression of virulence genes in L. monocytogenes. In the present work, we analyzed the effect of temperature and cellobiose on the expression of the PrfA protein. At low temperature, PrfA was undetected, although prfA monocistronic transcripts are present. In contrast, PrfA was fully expressed in the presence of cellobiose. These results strongly suggest that virulence gene activation depends on both the presence of PrfA and additional regulatory pathways that either modify PrfA or act synergistically with PrfA.

Published

1997