Plague Research Today is a free monthly online journal that collates and summarizes the latest research about Plague, including details on bubonic plague, yersinia pestis, infection, types, treatment.

Interaction of Yersinia pestis with macrophages: limitations in YopJ-dependent apoptosis.

Zauberman A, Cohen S, Mamroud E, Flashner Y, Tidhar A, Ber R, Elhanany E, Shafferman A, Velan B

Department of Biochemistry and Molecular Genetics, Israel Institute for Biological Research, P.O. Box 19, Ness-Ziona, 74100, Israel.

The enteropathogenic Yersinia strains are known to downregulate signaling pathways in macrophages by effectors of the type III secretion system, in which YopJ/YopP plays a crucial role. The adverse effects of Yersinia pestis, the causative agent of plague, were examined by infecting J774A.1 cells, RAW264.7 cells, and primary murine macrophages with the EV76 strain and with the fully virulent Kimberley53 strain. Y. pestis exerts YopJ-dependent suppression of tumor necrosis factor alpha secretion and phosphorylation of mitogen-activated protein kinases and thus resembles enteropathogenic Yersinia. However, Y. pestis is less able to activate caspases, to suppress NF-kappaB activation, and to induce apoptosis in macrophages than the high-virulence Y. enterocolitica WA O:8 strain. These differences appear to be related to lower efficiency of YopJ effector translocation by Y. pestis. The efficiencies of effector translocation and of apoptosis induction can be enhanced either by using a high bacterial load in a synchronized infection or by overexpressing exogenous YopJ in Y. pestis. Replacing YopJ with the homologous Y. enterocolitica effector YopP can further enhance these effects. Overexpression of YopP in a yopJ-deleted Y. pestis background leads to rapid and effective translocation into target cells, providing Y. pestis with the high cytotoxic potential of Y. enterocolitica WA O:8. We suggest that the relative inferiority of Y. pestis in triggering cell death in macrophages may be advantageous for its in vivo propagation in the early stages of infection.

Published 22 May 2006 in Infect Immun, 74(6): 3239-50.
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