Abstract
Helicobacter pylori secretes an 88-kDa vacuolating cytotoxin (VacA) that may contribute to the pathogenesis of peptic ulcer disease and gastric cancer. VacA cytotoxic activity requires assembly of VacA monomers into oligomeric structures, formation of anion-selective membrane channels, and entry of VacA into host cells. In this study, we analyzed the functional properties of recombinant VacA fragments corresponding to two putative VacA domains (designated p33 and p55). Immunoprecipitation experiments indicated that these two domains can interact with each other to form protein complexes. In comparison to the individual VacA domains, a mixture of the p33 and p55 proteins exhibited markedly enhanced binding to the plasma membrane of mammalian cells. Furthermore, internalization of the VacA domains was detected when cells were incubated with the p33/p55 mixture but not when the p33 and p55 proteins were tested individually. Incubation of cells with the p33/p55 mixture resulted in cell vacuolation, whereas the individual domains lacked detectable cytotoxic activity. Interestingly, sequential addition of p55 followed by p33 resulted in VacA internalization and cell vacuolation, whereas sequential addition in the reverse order was ineffective. These results indicate that both the p33 and p55 domains contribute to the binding and internalization of VacA and that both domains are required for vacuolating cytotoxic activity. Reconstitution of toxin activity from two separate domains, as described here for VacA, has rarely been described for pore-forming bacterial toxins, which suggests that VacA is a pore-forming toxin with unique structural properties.
Highlights
From the Departments of ‡Microbiology and Immunology and ¶Medicine, Vanderbilt University School of Medicine, Nashville, Tennessee 37232-2605 and **Department of Veterans Affairs Medical Center, Nashville, Tennessee 37212
P33 and p55 vacuolating cytotoxin (VacA) Domains Complement Each Other for Vacuolating Activity—Previously, it has been shown that E. coli soluble extract containing the full-length 88-kDa recombinant VacA protein exhibits vacuolating cytotoxic activity when added to mammalian cells [51]
We investigated whether either the p33 or the p55 protein was capable of causing cell vacuolation activity when added to mammalian cells
Summary
Vol 280, No 22, Issue of June 3, pp. 21107–21114, 2005 Printed in U.S.A. Functional Properties of the p33 and p55 Domains of the Helicobacter pylori Vacuolating Cytotoxin*. Other reported effects of VacA include depolarization of the membrane potential [11,12,13], apoptosis [14, 15], detachment of epithelial cells from the basement membrane [16], interference with the process of antigen presentation [17], activation of mitogen-activated protein kinases [18, 19], and inhibition of activation-induced proliferation of T lymphocytes (19 –21) Many of these effects are dependent on the capacity of VacA to form anion-selective membrane channels [13, 15, 21,22,23,24]. Our data indicate that neither the p33 nor the p55 recombinant VacA domain exhibits detectable vacuolating cytotoxic activity when added individually to the surface of mammalian cells.
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