ClpE, a novel member of the HSP100 family, is involved in cell division and virulence of Listeria monocytogenes

We identified, in the facultative intracellular pathogen Listeria monocytogenes , a previously unknown Clp ATPase, unique among the HSP100 proteins because of the presence of a short N-terminal region with a potential zinc finger motif. This protein of 726 amino acids is highly homologous to ClpE of Bacillus subtilis , and is a member of a new subfamily of HSP100/Clp ATPases. The clpE gene is transcribed as a monocistronic mRNA from a typical consensus σ^A promoter. clpE is not stimulated by various stresses, but is upregulated in a clpC mutant. This is the first example of cross-regulation between Clp ATPases. By constructing a clpE mutant of L. monocytogenes , we found that ClpE is required for prolonged survival at 42°C and is involved in the virulence of this pathogen. A double mutant deficient in both ClpE and ClpC was avirulent in a mouse model and completely eliminated in the liver. Electron microscopy studies did not show any morphological alterations in clpE or clpC mutants. In the clpE–clpC double mutant, however, cell division was affected, indicating that ClpE acts synergistically with ClpC in cell septation. These results show that the Clp chaperones play a crucial role in both cell division and virulence of L. monocytogenes .