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Infect Immun. 1990 November; 58(11): 3477-3486

A nonvirulent mutant of Listeria monocytogenes does not move intracellularly but still induces polymerization of actin.

M Kuhn, M C Prévost, J Mounier and P J Sansonetti

Unité de Pathogénie Microbienne Moléculaire, Unité INSERM 199, Institut Pasteur, Paris, France.

ABSTRACT

Listeria monocytogenes has the capacity to penetrate and multiply within professional and nonprofessional phagocytic cells, such as the Caco-2 human enterocytelike cell line. It was shown recently that shortly after listeriae have been phagocytosed, the phagosomal membrane is dissolved, probably by the action of the bacterial cytolysin listeriolysin O. The listeriae, which are then lying obviously free in the cytoplasm, become surrounded by a coat of actin filaments within a few hours. Once formed, this layer of actin filaments is reorganized in an as yet unknown way to form polar tails, which seem to be associated to the generation of listerial movement inside the cytoplasm and in intercellular spread. By using transposon Tn916 mutagenesis, a bank of L. monocytogenes mutants was generated and subsequently screened by the plaque assay system in order to select an intracellular, nonmotile mutant of L. monocytogenes. One such mutant was identified. This mutant, called L. monocytogenes M117 Imt- (for intracellular motility), like the wild type, induced actin polymerization but was not able to rearrange the actin coat to generate movement and as a result remained entrapped within the actin cloud. In a mouse virulence assay, this strain was significantly reduced in virulence. L. monocytogenes M117 is the first example to date of a Listeria mutant which is still hemolytic and invasive but reduced in virulence.

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Infect Immun. 1990 November; 58(11): 3477-3486

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