2009
DOI: 10.1182/blood-2008-05-157180
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Proteolytic inactivation of tissue factor pathway inhibitor by bacterial omptins

Abstract: The immune response to infection includes activation of the blood clotting system, leading to extravascular fibrin deposition to limit the spread of invasive microorganisms. Some bacteria have evolved mechanisms to counteract this host response. Pla, a member of the omptin family of Gram-negative bacterial proteases, promotes the invasiveness of the plague bacterium, Yersinia pestis, by activating plasminogen to plasmin to digest fibrin. We now show that the endogenous anticoagulant tissue factor pathway inhib… Show more

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Cited by 33 publications
(42 citation statements)
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“…The finding that the peptides were particularly active in human plasma against E. coli, and to a lesser extent against P. aeruginosa, is particularly relevant and interesting, in the light of the ubiquitous occurrence of P. aeruginosa in chronic leg ulcers, contrasting to the very sparse E. coli colonization in these wounds (35,47). Furthermore, based on the demonstration that bacterial omptins (such as OmpT from E. coli) may release GGL27 fragments from TFPI, it was recently proposed that TFPI has evolved sensitivity to omptin-mediated proteolytic inactivation to potentiate procoagulant responses to E. coli infection in certain conditions (48). Our data further substantiate this hypothesis by adding another host-response mechanism to E. coli infection: OmpT-mediated generation of the host defense peptide GGL27.…”
Section: Discussionsupporting
confidence: 77%
“…The finding that the peptides were particularly active in human plasma against E. coli, and to a lesser extent against P. aeruginosa, is particularly relevant and interesting, in the light of the ubiquitous occurrence of P. aeruginosa in chronic leg ulcers, contrasting to the very sparse E. coli colonization in these wounds (35,47). Furthermore, based on the demonstration that bacterial omptins (such as OmpT from E. coli) may release GGL27 fragments from TFPI, it was recently proposed that TFPI has evolved sensitivity to omptin-mediated proteolytic inactivation to potentiate procoagulant responses to E. coli infection in certain conditions (48). Our data further substantiate this hypothesis by adding another host-response mechanism to E. coli infection: OmpT-mediated generation of the host defense peptide GGL27.…”
Section: Discussionsupporting
confidence: 77%
“…We observed here that Y. pseudotuberculosis cells and the Yco omptins do not cleave PAI-1, and they neither cleave nor activate plasminogen (J. Haiko, unpublished). The Pla-mediated, wide attack on control of an important hemostatic process in humans, i.e., the fibrinolysis/coagulation balance (32,60,71), represents a considerable difference in pathogenetic potential between the two bacterial species. The omptin Epo also cleaved human PAI-1; this omptin associates with the plant pathogen E. pyrifoliae, which causes pear blight (30), and epo is carried on a mosaic plasmid, pEP36, that is closely related to the virulence plasmid pEA29 of Erwinia amylovora (40).…”
Section: Discussionmentioning
confidence: 99%
“…Many inhibitors are exceptionally stable to proteolysis (6); however, some inhibitors can be gradually inactivated either by the very proteases that they inhibit (7) or by alternative endogenous proteases that they do not inhibit (8 -12). Infectious microorganisms can also produce proteases that perturb the protease-inhibitor balance in human tissue by selective cleavage and inactivation of human protease inhibitors (13)(14)(15). An understanding of the fundamental features that render protein protease inhibitors stable inhibitors versus vulnerable substrates of the proteases that they encounter is critical for understanding the function of these molecules in tissue homeostasis.…”
mentioning
confidence: 99%