The gene cluster inlC2DE of Listeria monocytogenes contains additional new internalin genes and is important for virulence in mice.

In this work we identified and characterized a gene cluster containing three internalin genes of Listeria monocytogenes EGD. These genes, termed inlG, inlH and inlE, encode proteins of 490, 548 and 499 amino acids, respectively, which belong to the family of large, cell wall-bound internalins. The inlGHE gene cluster is flanked by two listerial house-keeping genes encoding proteins homologous to the 6-phospho-beta-glucosidase and the succinyl-diaminopimelate desuccinylase of E. coli. A similar internalin gene cluster, inlC2DE, localised to the same position on the L. monocytogenes EGD chromosome was recently described in a different isolate (Dramsi S, Dehoux P, Lebrun M, Goossens PL, Cossart P (1997) Infect Immun 65: 1615-1625). Sequence comparison of the two inl gene clusters indicates that inlG is a new internalin gene, while inlH was generated by a site-specific recombination, leading to an in-frame deletion which removed the 3'-terminal end of inlC2 and the 5'-terminal part of inlD. The third gene of the inlGHE cluster, inlE, is almost identical to the previously reported inlE gene. Our data show that the inlGHE gene cluster is probably transcribed from a major PrfA-independent promoter located upstream of inlG. PCR analysis revealed the presence of the newly identified inl genes inlG and inlH in most L. monocytogenes isolates tested. A mutant which has lost inlG, inlH and inlE by an in-frame deletion exhibited, after oral infection of mice, a significant loss in virulence and shows drastically reduced numbers of viable bacteria in both liver and spleen when compared to the wild-type strain.

A novel PrfA-regulated chromosomal locus, which is specific for Listeria ivanovii, encodes two small, secreted internalins and contributes to virulence in mice.

Several large, cell wall-associated internalins and one small, secreted internalin (InlC) have been described previously in Listeria monocytogenes. Using degenerate primers derived from sequenced peptides of an L. ivanovii major secreted protein, we identified a new 4.25 kb internalin locus of L. ivanovii, termed i-inlFE. The two proteins encoded by this locus, i-InlE and i-InlF, belong to the group of small, secreted internalins. Southern blot analyses show that the i-inlFE locus does not occur in L. monocytogenes. These data also indicate that six genes encoding small, secreted internalins are present in L. ivanovii, in contrast to L. monocytogenes, in which inlC encodes the only small internalin. The mature i-InlE protein (198 amino acids) is secreted in large amounts into the brain-heart infusion (BHI) culture medium in the stationary growth phase. In minimum essential medium (MEM), which has been used previously to induce PrfA-dependent gene transcription, i-inlE mRNA and i-InlE protein are expressed at high levels. As shown by Northern blot analysis and primer extension, transcription of the tandemly arranged i-inlF and i-inlE genes is dependent on the virulence regulator PrfA, and characteristic palindromic sequences ('PrfA-boxes') were identified in the promoter regions of i-inlF and i-inlE. Non-polar i-inlE and i-inlF deletion mutants and an i-inlFE double deletion mutant were constructed and tested in the mouse infection model. After intravenous infection, all three mutants entirely failed to kill C57BL/6 mice even at high infectious doses of 109 bacteria per mouse, whereas the LD50 for the parental strain was determined as 4 x 107 bacteria per mouse. These data suggest an important role for i-InlE and i-InlF in L. ivanovii virulence.