Blood inhibitory capacity toward exogenous plasmin.

Stabilized, active plasmin is a novel thrombolytic for direct delivery to clots. Although it is known that protease inhibitors in plasma inhibit plasmin, the amount of plasmin that can be added to plasma/blood before free plasmin is observed is not clear. Determination of free plasmin activity in plasma using chromogenic substrates represents a challenge due to false-positive signals from plasmin entrapped by alpha2-macroglobulin. Size-exclusion chromatography was used to separate the plasmin-alpha2-macroglobulin complex from uninhibited, free plasmin. In this in-vitro study, exogenous plasmin is effectively inhibited up to 2.4 micromol/l after 5-min incubation with plasma at 37 degrees C. Initially, plasmin was consumed predominantly by alpha2-antiplasmin up to 1.2 micromol/l plasmin. Following exhaustion of alpha2-antiplasmin, plasmin was further consumed by alpha2-macroglobulin up to 2.4 micromol/l plasmin added to human plasma. Whole human blood was found to have an increased inhibitory capacity over that of plasma; free plasmin activity could be measured only above 3.8 micromol/l added plasmin. In conclusion, several mechanisms exist that control plasmin activity in human blood; in addition to alpha2-antiplasmin and alpha2-macroglobulin, blood cells contribute to the inhibition of exogenously administered plasmin. These in-vitro results indicate that doses of plasmin up to approximately 12 mg/kg in humans can be completely inactivated by blood.

The properties of rabbit alpha1-macroglobulin upon activation are distinct from those of rabbit and human alpha2-macroglobulins.

We have characterized native and activated forms of rabbit alpha1M and compared them to rabbit and human alpha2M. Similar to human alpha2M, rabbit alpha1M is a tetramer associated via disulfide bonds and non-covalent interactions that exhibits autolysis into two fragments when heated. Like human alpha2M, rabbit alpha1M is cleaved by trypsin at one site; however, rabbit alpha1M shares characteristics with rabbit alpha2M that are different from the properties of human alpha2M. Amine or trypsin treatment of rabbit alpha-macroglobulins does not result in a significant conformational change or cleavage of four thiolester bonds. Full thiolester cleavage is only observed for rabbit alpha1M after exposure to both trypsin and a small amine. Additionally, amine-treated rabbit alpha-macroglobulins retain trypsin inhibitory potential and do not fully shield bound proteinases. Methylamine and trypsin treatment of rabbit alpha1M results in two dissimilar conformations that display differing exposure of the receptor-recognition site. While ammonia- and methylamine-modified rabbit alpha1M bind to macrophages with similar affinity to that of human alpha2M, trypsin-treated rabbit alpha1M exhibits dramatically lower affinity. This suggests that rabbit alpha1M may not play the same proteinase-inhibiting physiological role as human alpha2M.

The C-terminal domains of the gingipain K polyprotein are necessary for assembly of the active enzyme and expression of associated activities.

The Porphyromonas gingivalis lysine-specific cysteine protease (gingipain K, Kgp) is expressed as a large precursor protein consisting of a leader sequence, a pro-fragment, a catalytic domain with a C-terminal IgG-like subdomain (IgSF) and a large haemagglutinin/adhesion (HA) domain. In order to directly study the role of these non-catalytic domains in pro-Kgp processing and maturation in P. gingivalis, the wild-type form of the gene was replaced with deletion variants encoding C-terminally truncated proteins, including KgpDeltaHA3/4 (Delta1292-1732 aa), KgpDeltaHA2-4 (Delta1157-1732 aa), KgpDeltaHA1-4 (Delta738-1732 aa), KgpDeltaC-term/HA (Delta681-1732 aa) and KgpDeltaIg/C-term/HA (602-1732 aa). Northern blot and reverse transcription polymerase chain reaction (RT-PCR) analysis revealed that all truncated variants of the kgp gene were transcribed in P. gingivalis. Despite high levels of kgpDeltaC-term/HA and kgpDeltaIg/C-term/HA transcripts, no Kgp-specific antigen was detected in cultures of these mutants as determined by Western blot analysis with monoclonal antibodies specific for the Kgp catalytic domain. Furthermore, only barely measurable amounts of Kgp-specific activity were detected in these two mutants. The remaining mutants expressed significant Kgp activity, however, at lower levels when compared with the parental strain. The decreased activity most probably resulted from altered folding and/or hindered secretion of the protein. The kgp gene truncation was also demonstrated to alter the distribution of the gingipain protein between membrane-associated and -secreted forms. While both gingipain K activity and the protein were cell membrane-associated in the parental strain, the mutants released significant amounts of both protein and activity into the media. Taken together, these results suggest that the C-terminal HA domains of Kgp are not only essential for full expression of gingipain activity, but also for proper processing of the multiprotein complex assembly on the P. gingivalis outer membrane. Moreover, our results indicate that the immunoglobulin-like subdomain is indispensable for proper folding and expression of the gingipains.

Growth phase-dependent production of a cell wall-associated elastinolytic cysteine proteinase by Staphylococcus epidermidis.

Staphylococcus epidermidis, a Gram-positive, coagulase-negative bacterium is a predominant inhabitant of human skin and mucous membranes. Recently, however, it has become one of the most important agents of hospital-acquired bacteriemia, as it has been found to be responsible for surgical wound infections developed in individuals with indwelling catheters or prosthetic devices, as well as in immunosupressed or neutropenic patients. Despite their medical significance, little is known about proteolytic enzymes of S. epidermidis and their possible contribution to the bacterium's pathogenicity; however, it is likely that they function as virulence factors in a manner similar to that proposed for the proteases of Staphylococcus aureus. Here we describe the purification of a cell wall-associated cysteine protease from S. epidermidis, its biochemical properties and specificity. A homology search using N-terminal sequence data revealed similarity to staphopain A (ScpA) and staphopain B (SspB), cysteine proteases from S. aureus. Moreover, the gene encoding S. epidermidis cysteine protease (Ecp) and a downstream gene coding for a putative inhibitor of the protease form an operon structure which resembles that of staphopain A in S. aureus. The active cysteine protease was detected on the bacterial cell surface as well as in the culture media and is apparently produced in a growth phase-dependent manner, with initial expression occurring in the mid-logarithmic phase. This enzyme, with elastinolytic properties, as well as the ability to cleave alpha1PI, fibrinogen and fibronectin, may possibly contribute to the invasiveness and pathogenic potential of S. epidermidis.

Proteolysis of interleukin-6 receptor (IL-6R) by Porphyromonas gingivalis cysteine proteinases (gingipains) inhibits interleukin-6-mediated cell activation.

Current consensus is that periodontitis is an infectious disease in which a deregulated chronic inflammatory reaction not only may lead to periodontal tissue damage but also eventually may cause tooth loss. In controlling the inflammatory state the interplay between a network of cytokines and their receptors plays an important role. Here we show that the interleukin-6 receptor (IL-6R) is rapidly and efficiently inactivated by gingipains, the arginine- (HRgpA and RgpB) and lysine- (Kgp) specific cysteine proteinases from Porphyromonas gingivalis. Preincubation of HepG2 cells with active gingipains results in the loss of gp80 (CD126) from the cell surface. This also correlates with a decreased responsiveness to stimulation by interleukin-6 (IL-6), as determined by measurement of the status of IL-6R-mediated STAT 3 (Signal Transducer and Activator of Transcription 3) activation by this cytokine. Significantly, incubation of cells with gingipains was not accompanied by release of the soluble receptor, indicating its degradation, and this was confirmed by susceptibility of the recombinant, soluble receptor to proteolytic digestion by these enzymes. With the exception of the degradation of soluble IL-6R (sIL-6R) by Kgp, all of these reactions were also observed in the presence of serum suggesting that receptor inactivation may occur in vivo. Interestingly, Kgp, although less effective in cleaving sIL-6R, was able to decrease cell responsiveness to IL-6, possibly through degradation/inactivation of the signal transducing component (gp130) associated with IL-6R. These data, together with previous observation that IL-6 itself is inactivated by gingipains, suggest that at periodontitis sites infected by P. gingivalis the inflammatory reactions dependent on IL-6 could be severely hindered contributing to both tissue damage and periodontopathogen survival.

Isolation and properties of stachyrase A, a chymotrypsin-like serine proteinase from Stachybotrys chartarum.

A strain of the common mold Stachybotrys chartarum has been isolated from the lung of a child with pulmonary hemorrhage. We report the purification of stachyrase A, a new serine chymotrypsin-like proteinase from S. chartarum. This enzyme cleaves major protease inhibitors, several biologically active peptides, and collagen, all of which are found in the lung.