Intercellular spreading of shigellae is a prerequisite for shigellosis, although the molecular mechanisms underlying the phenomenon are still largely obscure. To elucidate some of these mechanisms, we performed random Tn10 insertion mutagenesis in Shigella flexneri YSH6000T and found a chromosomal locus in the NotI-J segment responsible for bacterial spreading. The locus affected in the mutant, designated vacJ, was neither involved in the invasion of epithelial cells nor in intracellular movement, but was required for intercellular spread. The vacJ mutant was capable of forming bacterium-containing membranous protrusions within the infected cell, but had diminished ability to move from the protrusions into the cytoplasm of the adjacent epithelial cells. Cloning and sequencing of the vacJ region indicated that the vacJ gene encoded a 28.0 kDa protein possessing a signal peptide at the N-terminus, which contained the motif characteristic of lipoproteins. The analysis of the vacJ product indicated that VacJ was exposed on the bacterial surface. The vacJ gene was distributed among shigellae and enteroinvasive Escherichia coli, and the constructed vacJ mutants failed to spread intercellularly, indicating that vacJ is a chromosomal gene essential for the pathogenicity of shigellae.