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Query: UNIPROT:P00750 (
PLA
)
16,800
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
OmpT
is a protease associated with the outer membrane of Escherichia coli and possesses a high degree of homology to the
plasminogen activator
,
Pla
, of Yersinia pestis. We show here that
OmpT
from intact cells can indeed activate plasminogen. Clinical specimens of E. coli were examined for protease activity and for the ompT gene. Few isolates (12%) were found to be positive for
OmpT
activity, whereas most (77%) carried the ompT gene and expressed the cloned protease gene. In this report we present evidence suggesting that the surface architecture of E. coli influences the activity of
OmpT
and that
OmpT
may be indicative of the pathogenic potential of the organism.
...
PMID:Prevalence of ompT among Escherichia coli isolates of human origin. 142 4
A 9.5-kilobase plasmid of Yersinia pestis, the causative agent of plague, is required for high virulence when mice are inoculated with the bacterium by subcutaneous injection. Inactivation of the plasmid gene pla, which encodes a surface protease, increased the median lethal dose of the bacteria for mice by a millionfold. Moreover, cloned pla was sufficient to restore segregants lacking the entire pla-bearing plasmid to full virulence. Both pla+ strains injected subcutaneously and pla- mutants injected intravenously reached high titers in liver and spleen of infected mice, whereas pla- mutants injected subcutaneously failed to do so even though they establish a sustained local infection at the injection site. More inflammatory cells accumulated in lesions caused by the pla- mutants than in lesions produced by the pla+ parent. The
Pla
protease was shown to be a
plasminogen activator
with unusual kinetic properties. It can also cleave complement C3 at a specific site.
...
PMID:A surface protease and the invasive character of plague. 143 93
We have determined the nucleotide sequence of the 1.4-kilobase DNA fragment containing the
plasminogen activator
gene (pla) of Yersinia pestis, which determines both
plasminogen activator
and coagulase activities of the species. The sequence revealed the presence of a 936-base-pair open reading frame that constitutes the pla gene. This reading frame encodes a 312-amino-acid protein of 34.6 kilodaltons and containing a putative 20-amino-acid signal sequence. The presence of a single large open reading frame is consistent with our previous conclusion that the two
Pla
proteins which appear in the outer membrane of pla+ Y. pestis are derived from a common precursor. The deduced amino acid sequence of
Pla
revealed that it possesses a high degree of homology to the products of gene E of Salmonella typhimurium and ompT of Escherichia coli but does not possess significant homology to other plasminogen activators of known sequence. We also identified a transcription unit that resides on the complimentary strand and overlaps the pla gene.
...
PMID:Nucleotide sequence of the plasminogen activator gene of Yersinia pestis: relationship to ompT of Escherichia coli and gene E of Salmonella typhimurium. 265 10
In contrast to target amplification methods, e.g. polymerase chain reaction, the branched DNA (bDNA) signal amplification method quantitates target nucleic acid at physiological levels, involving a series of hybridization reactions without thermal cycling. In this report, we describe a modification of the bDNA assay in which a <<concatenated>> preamplifier oligonucleotide (206 mer) is used in concert with ELISA and light addressable potentiometric sensor (LAPS) formats to detect the
plasminogen activator
(pla) gene of Yersinia pestis, the etiological agent of plague.
Pla
is encoded by a 9.6-kb plasmid pPCP, which is essential for virulence. The detection limit of the bDNA-ELISA and LAPS assays is less than 10 000 and 1000 molecules of Y. pestis plasmid DNA, respectively.
...
PMID:Detection of Yersinia pestis using branched DNA. 1044 Dec 5
The causative agent of plague, Yersinia pestis, is regarded as being noninvasive for epithelial cells and lacks the major adhesins and invasins of its enteropathogenic relatives Yersinia enterocolitica and Yersinia pseudotuberculosis. However, there are studies indicating that Y. pestis invades and causes systemic infection from ingestive and aerogenic routes of infection. Accordingly, we developed a gentamicin protection assay and reexamined invasiveness of Y. pestis for HeLa cells. By optimizing this assay, we discovered that Y. pestis is highly invasive. Several factors, including the presence of fetal bovine serum, the configuration of the tissue culture plate, the temperature at which the bacteria are grown, and the presence of the
plasminogen activator
protease
Pla
-encoding plasmid pPCP1, were found to influence invasiveness strongly. Suboptimal combinations of these factors may have contributed to negative findings by previous studies attempting to demonstrate invasion by Y. pestis. Invasion of HeLa cells was strongly inhibited by cytochalasin D and modestly inhibited by colchicine, indicating strong and modest respective requirements for microfilaments and microtubules. We found no significant effect of the iron status of yersiniae or of the pigmentation locus on invasion and likewise no significant effect of the Yops regulon. However, an unidentified thermally induced property (possibly the Y. pestis-specific capsular protein Caf1) did inhibit invasiveness significantly, and the plasmid pPCP1, unique to Y. pestis, was essential for highly efficient invasion. pPCP1 encodes an invasion-promoting factor and not just an adhesin, because Y. pestis lacking this plasmid still adhered to HeLa cells. These studies have enlarged our picture of Y. pestis biology and revealed the importance of properties that are unique to Y. pestis.
...
PMID:Invasion of epithelial cells by Yersinia pestis: evidence for a Y. pestis-specific invasin. 1089 51
The
plasminogen activator
, surface protease
Pla
, of the plague bacterium Yersinia pestis is an important virulence factor that enables the spread of Y. pestis from subcutaneous sites into circulation.
Pla
-expressing Y. pestis and recombinant Escherichia coli formed active plasmin in the presence of the major human plasmin inhibitor, alpha2-antiplasmin, and the bacteria were found to inactivate alpha2-antiplasmin. In contrast, only poor plasminogen activation and no cleavage of alpha2-antiplasmin was observed with recombinant bacteria expressing the homologous gene ompT from E. coli. A beta-barrel topology model for
Pla
and
OmpT
predicted 10 transmembrane beta-strands and five surface-exposed loops L1-L5. Hybrid
Pla
-
OmpT
proteins were created by substituting each of the loops between
Pla
and
OmpT
. Analysis of the hybrid molecules suggested a critical role of L3 and L4 in the substrate specificity of
Pla
towards plasminogen and alpha2-antiplasmin. Substitution analysis at 25 surface-located residues showed the importance of the conserved residues H101, H208, D84, D86, D206 and S99 for the proteolytic activity of
Pla
-expressing recombinant E. coli. The mature alpha-
Pla
of 292 amino acids was processed into beta-
Pla
by an autoprocessing cleavage at residue K262, and residues important for the self-recognition of
Pla
were identified. Prevention of autoprocessing of
Pla
, however, had no detectable effect on plasminogen activation or cleavage of alpha2-antiplasmin. Cleavage of alpha2-antiplasmin and plasminogen activation were influenced by residue R211 in L4 as well as by unidentified residues in L3.
OmpT
, which is not associated with invasive bacterial disease, was converted into a
Pla
-like protease by deleting residues D214 and P215, by substituting residue K217 for R217 in L4 of
OmpT
and also by substituting the entire L3 with that from
Pla
. This simple modification of the surface loops and the substrate specificity of
OmpT
exemplifies the evolution of a housekeeping protein into a virulence factor by subtle mutations at critical protein regions. We propose that inactivation of alpha2-antiplasmin by
Pla
of Y. pestis promotes uncontrolled proteolysis and contributes to the invasive character of plague.
...
PMID:Protein regions important for plasminogen activation and inactivation of alpha2-antiplasmin in the surface protease Pla of Yersinia pestis. 1140 15
The O-antigen of lipopolysaccharide (LPS) is a virulence factor in enterobacterial infections, and the advantage of its genetic loss in the lethal pathogen Yersinia pestis has remained unresolved. Y. pestis and Salmonella enterica express beta-barrel surface proteases of the
omptin
family that activate human plasminogen. Plasminogen activation is central in pathogenesis of plague but has not, however, been found to be important in diarrhoeal disease. We observed that the presence of O-antigen repeats on wild-type or recombinant S. enterica, Yersinia pseudotuberculosis or Escherichia coli prevents plasminogen activation by PgtE of S. enterica and
Pla
of Y. pestis; the O-antigen did not affect incorporation of the omptins into the bacterial outer membrane. Purified His6-
Pla
was successfully reconstituted with rough LPS but remained inactive after reconstitution with smooth LPS. Expression of smooth LPS prevented
Pla
-mediated adhesion of recombinant E. coli to basement membrane as well as invasion into human endothelial cells. Similarly, the presence of an O-antigen prevented PgtE-mediated bacterial adhesion to basement membrane. Substitution of Arg-138 and Arg-171 of the motif for protein binding to lipid A 4'-phosphate abolished proteolytic activity but not membrane translocation of PgtE, indicating dependence of
omptin
activity on a specific interaction with lipid A. The results suggest that
Pla
and PgtE require LPS for activity and that the O-antigen sterically prevents recognition of large-molecular-weight substrates. Loss of O-antigen facilitates
Pla
functions and invasiveness of Y. pestis; on the other hand, smooth LPS renders
plasminogen activator
cryptic in S. enterica.
...
PMID:Lack of O-antigen is essential for plasminogen activation by Yersinia pestis and Salmonella enterica. 1465 23
The omptins are a family of enterobacterial surface proteases/adhesins that share high sequence identity and a conserved beta-barrel fold in the outer membrane. The omptins are multifunctional, and the individual omptins exhibit differing virulence-associated functions. The
Pla
plasminogen activator
of Yersinia pestis contributes by several mechanisms to bacterial invasiveness and the systemic, uncontrolled proteolysis in plague.
Pla
proteolytically activates the human proenzyme plasminogen and inactivates the antiprotease alpha2-antiplasmin, and its binding to laminin localizes the uncontrolled plasmin activity onto basement membranes. These properties enhance bacterial migration through tissue barriers.
Pla
also degrades circulating complement proteins and functions in bacterial invasion into human epithelial cells. PgtE of Salmonella enterica and
OmpT
of Escherichia coli have been shown to degrade cationic antimicrobial peptides from epithelial cells or macrophages. PgtE and SopA of Shigella flexneri appear important in the intracellular phases of salmonellosis and shigellosis, whereas functions of
OmpT
have mainly been associated with protein degradation in E. coli cells. The differing virulence roles and functions have been attributed to minor sequence variations at the surface-exposed regions important for substrate recognition, to the dependence of
omptin
functions on lipopolysaccharide, and to the different regulation of
omptin
expression.
...
PMID:The omptin family of enterobacterial surface proteases/adhesins: from housekeeping in Escherichia coli to systemic spread of Yersinia pestis. 1529 49
Bacterial pathogens have frequently evolved and maintained the capacity to engage and/or activate hemostatic system components of their vertebrate hosts. Recent studies of mice with selected alterations in host plasminogen and other hemostatic factors have begun to reveal a seminal role of bacterial plasminogen activators and fibrin clearance in microbial pathogenesis. Bacterial pathogens appear to exploit host plasmin-mediated proteolysis to both support microbial dissemination and evade innate immune surveillance systems. The contribution of bacterial plasminogen activation to the evasion of the inflammatory response is particularly conspicuous with the plague agent, Yersinia pestis. Infection of control mice with wild-type Y. pestis leads to the formation of widespread foci containing massive numbers of free bacteria with little inflammatory cell infiltrate, whereas the loss of either the bacterial
plasminogen activator
,
Pla
, or the elimination of host plasminogen results in the accumulation of robust inflammatory cell infiltrates at sites of infection and greatly improved survival. Interestingly, fibrin(ogen) deficiency undermines the local inflammatory response observed with
Pla
-deficient Y. pestis and effectively eliminates the survival benefits posed by the elimination of either host plasminogen or bacterial
Pla
. These studies, and complementary studies with other human pathogens, illustrate that plasminogen and fibrinogen are extremely effective modifiers of the inflammatory response in vivo and critical determinants of bacterial virulence and host defense. Detailed studies of the inflammatory response in mice with genetically-imposed modifications in coagulation and fibrinolytic factors underscore the regulatory crosstalk between the hemostatic and immune systems.
...
PMID:Fibrin and fibrinolysis in infection and host defense. 1763 5
Unlike the classical Yersinia pestis strains, members of an atypical group of Y. pestis from Central Asia, denominated Y. pestis subspecies caucasica (also known as one of several pestoides types), are distinguished by a number of characteristics including their ability to ferment rhamnose and melibiose, their lack of the small plasmid encoding the
plasminogen activator
(pla) and pesticin, and their exceptionally large variants of the virulence plasmid pMT (encoding murine toxin and capsular antigen). We have obtained the entire genome sequence of Y. pestis Pestoides F, an isolate from the former Soviet Union that has enabled us to carryout a comprehensive genome-wide comparison of this organism's genomic content against the six published sequences of Y. pestis and their Y. pseudotuberculosis ancestor. Based on classical glycerol fermentation (+ve) and nitrate reduction (+ve) Y. pestis Pestoides F is an isolate that belongs to the biovar antiqua. This strain is unusual in other characteristics such as the fact that it carries a non-consensus V antigen (lcrV) sequence, and that unlike other
Pla
(-) strains, Pestoides F retains virulence by the parenteral and aerosol routes. The chromosome of Pestoides F is 4,517,345 bp in size comprising some 3,936 predicted coding sequences, while its pCD and pMT plasmids are 71,507 bp and 137,010 bp in size respectively. Comparison of chromosome-associated genes in Pestoides F with those in the other sequenced Y. pestis strains reveals differences ranging from strain-specific rearrangements, insertions, deletions, single nucleotide polymorphisms, and a unique distribution of insertion sequences. There is a single approximately 7 kb unique region in the chromosome not found in any of the completed Y. pestis strains sequenced to date, but which is present in the Y. pseudotuberculosis ancestor. Taken together, these findings are consistent with Pestoides F being derived from the most ancient lineage of Y. pestis yet sequenced.
...
PMID:Pestoides F, an atypical Yersinia pestis strain from the former Soviet Union. 1796 1
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