Your search keyword '"Potempa, Jan"' showing total 28 results

1. Shut-Down of Type IX Protein Secretion Alters the Host Immune Response to Tannerella forsythia and Porphyromonas gingivalis.

Author

Braun, Matthias L., Tomek, Markus B., Grünwald-Gruber, Clemens, Nguyen, Phuong Q., Bloch, Susanne, Potempa, Jan S., Andrukhov, Oleh, and Schäffer, Christina

Subjects

PORPHYROMONAS gingivalis, CYSTEINE proteinases, IMMUNE response, MUTANT proteins, SECRETION, PEPTIDASE, BLOOD coagulation factor IX

Abstract

Tannerella forsythia and Porphyromonas gingivalis target distinct virulence factors bearing a structurally conserved C-terminal domain (CTD) to the type IX protein secretion system (T9SS). The T9SS comprises an outer membrane translocation complex which works in concert with a signal peptidase for CTD cleavage. Among prominent T9SS cargo linked to periodontal diseases are the TfsA and TfsB components of T. forsythia's cell surface (S-) layer, the bacterium's BspA surface antigen and a set of cysteine proteinases (gingipains) from P. gingivalis. To assess the overall role of the bacterial T9SS in the host response, human macrophages and human gingival fibroblasts were stimulated with T. forsythia and P. gingivalis wild-type bacteria and T9SS signal peptidase-deficient mutants defective in protein secretion, respectively. The immunostimulatory potential of these bacteria was compared by analyzing the mRNA expression levels of the pro-inflammatory mediators IL-6, IL-8, MCP-1 and TNF-α by qPCR and by measuring the production of the corresponding proteins by ELISA. Shot-gun proteomics analysis of T. forsythia and P. gingivalis outer membrane preparations confirmed that several CTD-bearing virulence factors which interact with the human immune system were depleted from the signal peptidase mutants, supportive of effective T9SS shut-down. Three and, more profoundly, 16 hours post stimulation, the T. forsythia T9SS mutant induced significantly less production of cytokines and the chemokine in human cells compared to the corresponding parent strain, while the opposite was observed for the P. gingivalis T9SS mutant. Our data indicate that T9SS shut-down translates into an altered inflammatory response in periodontal pathogens. Thus, the T9SS as a potential novel target for periodontal therapy needs further evaluation. [ABSTRACT FROM AUTHOR]

Published

2022

2. A novel class of cysteine protease inhibitors: solution structure of Staphostatin A from Staphylococcus aureus

Author

Dubin, Grzegorz, Krajewski, Marcin, Popowicz, Grzegorz, Stec-Niemczyk, Justyna, Bochtler, Matthias, potempa, Jan, Dubin, Adam, and Holak, Tad A.

Subjects

Enzyme inhibitors -- Analysis, Cysteine proteinases, Staphylococcus aureus, Protease inhibitors -- Analysis, Biological sciences, Chemistry

Abstract

Results point out that staphostatin A and B from Staphylococcus aureus form a new class of cysteine protease inhibitors that exhibit distinct folding and mechanism of action from the known cysteine protease inhibitors. Data indicate that structurally they may be related to lipocalins and other beta-barrel protease inhibitory/regulatory domains.

Published

2003

3. Gingipains impair attachment of epithelial cell to dental titanium abutment surfaces.

Author

Eick, Sigrun, Gadzo, Naida, Tacchi, Manuel, Sculean, Anton, Potempa, Jan, and Stavropoulos, Andreas

Subjects

EPITHELIAL cells, DENTAL abutments, CELL adhesion molecules, CYSTEINE proteinases, CELL adhesion

Abstract

The study investigated in vitro the effect of Porphyromonas gingivalis and its cysteine proteases (gingipains) on epithelial cell adhesion to titanium–zirconium alloy surfaces. Titanium–zirconium discs with a standard machined (M) or chemically modified hydrophilic surface (modM) were coated with lamin‐5 and incubated with telomerase‐inactivated gingival keratinocytes (TIGK). Three P. gingivalis strains or gingipains were either added simultaneously with TIGK or after TIGK cells were already attached to the disks. Adhered TIGK cells were counted at 24 h. All P. gingivalis strains clearly inhibited adhesion of TIGK cells to M and modM surfaces. Compared with bacteria/gingipain‐free TIGK cell cultures, the number of attached TIGK cells was reduced by about 80% and 60% when P. gingivalis was added simultaneously or after TIGK cells were already attached to the disks (each p < 0.01), respectively. Counts of attached cells were similarly reduced when only gingipains were used. Adhesion molecules of TIGK cells, in particular E‐cadherin, were cleaved by P. gingivalis. In conclusion, P. gingivalis and gingipains interfere with the adhesion of epithelial cells to titanium–zirconium alloy surfaces by cleaving adhesion molecules, while a chemically modified hydrophilic titanium–zirconium alloy surface did not yield any protection. © 2019 Wiley Periodicals, Inc. J Biomed Mater Res Part B: Appl Biomater 107B:2549–2556, 2019. [ABSTRACT FROM AUTHOR]

Published

2019

4. Breakdown of albumin and haemalbumin by the cysteine protease interpain A, an albuminase of Prevotella intermedia.

Author

Byrne, Dominic P., Manandhar, Surya P., Potempa, Jan, and Smalley, John W.

Subjects

ALBUMINS, CYSTEINE proteinases, PREVOTELLA intermedia, PERIODONTITIS, BLOOD proteins

Abstract

Background: Prevotella intermedia is a Gram-negative black-pigmenting oral anaerobe associated with periodontitis in humans, and has a haem requirement for growth, survival and virulence. It produces an iron porphyrincontaining pigment comprising monomeric iron (III) protoporphyrin IX (Fe(III)PPIX.OH; haematin). The bacterium expresses a 90-kDa cysteine protease termed interpain A (InpA) which both oxidizes and subsequently degrades haemoglobin, releasing haem. However, it is not known whether the enzyme may play a role in degrading other haem-carrying plasma proteins present in the gingival sulcus or periodontal pocket from which to derive haem. This study evaluated the ability of InpA to degrade apo- and haem-complexed albumin. Results: Albumin breakdown was examined over a range of pH and in the presence of reducing agent; conditions which prevail in sub- and supra-gingival plaque. InpA digested haemalbumin more efficiently than apoalbumin, especially under reducing conditions at pH 7.5. Under these conditions InpA was able to substantially degrade the albumin component of whole human plasma. Conclusions: The data point to InpA as an efficient "albuminase" with the ability to degrade the minor fraction of haem-bound albumin in plasma. InpA may thus contribute significantly to haem acquisition by P. intermedia under conditions of low redox potential and higher pH in the inflamed gingival crevice and diseased periodontal pocket where haem availability is tightly controlled by the host. [ABSTRACT FROM AUTHOR]

Published

2015

5. A Metalloproteinase Mirolysin of Tannerella forsythia Inhibits All Pathways of the Complement System.

Author

Jusko, Monika, Potempa, Jan, Mizgalska, Danuta, Bielecka, Ewa, Ksiazek, Miroslaw, Riesbeck, Kristian, Garred, Peter, Eick, Sigrun, and Blom, Anna M.

Subjects

*METALLOPROTEINASES, *PATHOGENIC microorganisms, *PERIODONTITIS, *CYSTEINE proteinases, *SERUM

Abstract

Recent reports focusing on virulence factors of periodontal pathogens implicated proteinases as major determinants of remarkable pathogenicity of these species, with special emphasis on their capacity to modulate complement activity. In particular, bacteriamediated cleavage of C5 and subsequent release of C5a seems to be an important phenomenon in the manipulation of the local inflammatory response in periodontitis. In this study, we present mirolysin, a novel metalloproteinase secreted by Tannerella forsythia, a well-recognized pathogen strongly associated with periodontitis. Mirolysin exhibited a strong effect on all complement pathways. It inhibited the classical and lectin complement pathways due to efficient degradation of mannose-binding lectin, ficolin-2, ficolin-3, and C4, whereas inhibition of the alternative pathway was caused by degradation of C5. This specificity toward complement largely resembled the activity of a previously characterized metalloproteinase of T. forsythia, karilysin. Interestingly, mirolysin released the biologically active C5a peptide in human plasma and induced migration of neutrophils. Importantly, we demonstrated that combination of mirolysin with karilysin, as well as a cysteine proteinase of another periodontal pathogen, Prevotella intermedia, resulted in a strong synergistic effect on complement. Furthermore, mutant strains of T. forsythia, devoid of either mirolysin or karilysin, showed diminished survival in human serum, providing further evidence for the synergistic inactivation of complement by these metalloproteinases. Taken together, our findings on interactions of mirolysin with complement significantly add to the understanding of immune evasion strategies of T. forsythia and expand the knowledge on molecular mechanisms driving pathogenic events in the infected periodontium. [ABSTRACT FROM AUTHOR]

Published

2015

6. Disruption of gingipain oligomerization into non-covalent cell-surface attached complexes.

Author

Sztukowska, Maryta, Veillard, Florian, Potempa, Barbara, Bogyo, Matthew, Enghild, Jan J., Thogersen, Ida B., Nguyen, Ky-Anh, and Potempa, Jan

Subjects

OLIGOMERIZATION, CELL membranes, HEMAGGLUTININ, CATALYSIS, PORPHYROMONAS gingivalis, CYSTEINE proteinases, PERIODONTITIS

Abstract

RgpA and Kgp gingipains are non-covalent complexes of endoprotease catalytic and hemagglutinin-adhesin domains on the surface of Porphyromonas gingivalis. A motif conserved in each domain has been suggested to function as an oligomerization motif. We tested this hypothesis by mutating motif residues to hexahistidine or insertion of hexahistidine tag to disrupt the motif within the Kgp catalytic domain. All modifications led to the secretion of entire Kgp activity into the growth media, predominantly in a form without functional His-tag. This confirmed the role of the conserved motif in correct posttranslational proteolytic processing and assembly of the multidomain complexes. [ABSTRACT FROM AUTHOR]

Published

2012

7. Dichotomy of gingipains action as virulence factors: from cleaving substrates with the precision of a surgeon’s knife to a meat chopper-like brutal degradation of proteins.

Author

Guo, Yonghua, Nguyen, Ky-Anh, and Potempa, Jan

Subjects

CYSTEINE proteinases, PERIODONTAL disease, PORPHYROMONAS gingivalis, EXTRACELLULAR matrix proteins, PILI (Microbiology)

Abstract

The article discusses the role of gingipains, a cysteine protease produced by porphyromonas gingivalis, in the development of periodontal infection. It states that gingipains mediate the adherence of P. gingivalis to different sites within the oral cavity by acting as nonfimbrial adhesions or enabling the assembly of fimbriae. Meanwhile, gingipains attach themselves to the extracellular matrix proteins and trigger apoptosis by attacking adhesion molecules used by the host cells.

Published

2010

8. Staphylococcal cysteine protease staphopain B (SspB) induces rapid engulfment of human neutrophils and monocytes by macrophages.

Author

Smagur, Jan, Guzik, Krzysztof, Bzowska, Malgorzata, Kuzak, Mateusz, Zarebski, Miroslaw, Kantyka, Tomasz, Walski, Michal, Gajkowska, Barbara, and Potempa, Jan

Subjects

STAPHYLOCOCCAL diseases, BACTERIAL diseases, STAPHYLOCOCCUS aureus infections, CYSTEINE proteinases, PROTEINASES

Abstract

Circulating neutrophils and monocytes constitute the first line of antibacterial defence, which is responsible for the phagocytosis and killing of microorganisms. Previously, we have described that the staphylococcal cysteine proteinase staphopain B (SspB) cleaves CD11b on peripheral blood phagocytes, inducing the rapid development of features of atypical cell death in protease-treated cells. Here, we report that exposure of phagocytes to SspB critically impairs their antibacterial functions. Specifically, SspB blocks phagocytosis of Staphylococcus aureus by both neutrophils and monocytes, represses their chemotactic activity and induces extensive, nonphlogistic clearance of SspB-treated cells by macrophages. The proteinase also cleaves CD31, a major repulsion (‘do not-eat-me’) signal, on the surface of neutrophils. We suggest that both proteolytic degradation of repulsion signals and induction of ‘eat-me’ signals on the surface of leukocytes are responsible for the observed intensive phagocytosis of SspB-treated neutrophils by human monocyte-derived macrophages. Collectively, this may lead to the depletion of functional neutrophils at the site of infection, thus facilitating staphylococcal colonisation and spreading. [ABSTRACT FROM AUTHOR]

Published

2009

9. Interpain A, a Cysteine Proteinase from Prevotella intermedia, Inhibits Complement by Degrading Complement Factor C3.

Author

Potempa, Michal, Potempa, Jan, Kantyka, Tomasz, Nguyen, Ky-Anh, Wawrzonek, Katarzyna, Manandhar, Surya P., Popadiak, Katarzyna, Riesbeck, Kristian, Eick, Sigrun, and Blom, Anna M.

Subjects

*PERIODONTITIS, *DENTAL pathology, *BACTERIAL cell surfaces, *CYSTEINE proteinases, *GINGIVAL fluid

Abstract

Periodontitis is an inflammatory disease of the supporting structures of the teeth caused by, among other pathogens, Prevotella intermedia. Many strains of P. intermedia are resistant to killing by the human complement system, which is present at up to 70% of serum concentration in gingival crevicular fluid. Incubation of human serum with recombinant cysteine protease of P. intermedia (interpain A) resulted in a drastic decrease in bactericidal activity of the serum. Furthermore, a clinical strain 59 expressing interpain A was more serum-resistant than another clinical strain 57, which did not express interpain A, as determined by Western blotting. Moreover, in the presence of the cysteine protease inhibitor E64, the killing of strain 59 by human serum was enhanced. Importantly, we found that the majority of P. intermedia strains isolated from chronic and aggressive periodontitis carry and express the interpain A gene. The protective effect of interpain A against serum bactericidal activity was found to be attributable to its ability to inhibit all three complement pathways through the efficient degradation of the a-chain of C3—the major complement factor common to all three pathways. P. intermedia has been known to co-aggregate with P. gingivalis, which produce gingipains to efficiently degrade complement factors. Here, interpain A was found to have a synergistic effect with gingipains on complement degradation. In addition, interpain A was able to activate the C1 complex in serum, causing deposition of C1q on inert and bacterial surfaces, which may be important at initial stages of infection when local inflammatory reaction may be beneficial for a pathogen. Taken together, the newly characterized interpain A proteinase appears to be an important virulence factor of P. intermedia. [ABSTRACT FROM AUTHOR]

Published

2009

10. Down-regulation of human extracellular cysteine protease inhibitors by the secreted staphylococcal cysteine proteases, staphopain A and B.

Author

Vincents, Bjarne, Önnerfjord, Patrik, Gruca, Milosz, Potempa, Jan, and Abrahamson, Magnus

Subjects

CYSTEINE proteinases, STAPHYLOCOCCUS aureus, PATHOGENIC microorganisms, ENZYMES, MICROBIAL virulence

Abstract

Of seven human cystatins investigated, none inhibited the cysteine proteases staphopain A and B secreted by the human pathogen Staphylococcus aureus. Rather, the extracellular cystatins C, D and E/M were hydrolyzed by both staphopains. Based on MALDI-TOF time-course experiments, staphopain A cleavage of cystatin C and D should be physiologically relevant and occur upon S. aureus infection. Staphopain A hydrolyzed the Gly11 bond of cystatin C and the Ala10 bond of cystatin D with similar Km values of approximately 33 and 32 μM, respectively. Such N-terminal truncation of cystatin C caused >300-fold lower inhibition of papain, cathepsin B, L and K, whereas the cathepsin H activity was compromised by a factor of ca. 10. Similarly, truncation of cystatin D caused alleviated inhibition of all endogenous target enzymes investigated. The normal activity of the cystatins is thus down-regulated, indicating that the bacterial enzymes can cause disturbance of the host protease-inhibitor balance. To illustrate the in vivo consequences, a mixed cystatin C assay showed release of cathepsin B activity in the presence of staphopain A. Results presented for the specificity of staphopains when interacting with cystatins as natural protein substrates could aid in the development of therapeutic agents directed toward these proteolytic virulence factors. [ABSTRACT FROM AUTHOR]

Published

2007

11. The staphostatin family of cysteine protease inhibitors in the genus Staphylococcus as an example of parallel evolution of protease and inhibitor specificity.

Author

Dubin, Grzegorz, Wladyka, Benedykt, Stec-Niemczyk, Justyna, Chmiel, Dorota, Zdzalik, Michal, Dubin, Adam, and Potempa, Jan

Subjects

CYSTEINE proteinases, OPERONS, SPECIES, GENETIC transcription, BIOCHEMISTRY

Abstract

Staphostatins constitute a family of staphylococcal cysteine protease inhibitors sharing a lipocalin-like fold and a unique mechanism of action. Each of these cytoplasmic proteins is co-expressed from one operon, together with a corresponding target extracellular cysteine protease (staphopain). To cast more light on staphostatin/staphopain interaction and the evolution of the encoding operons, we have cloned and characterized a staphopain (StpA2 aur CH-91) and its inhibitor (StpinA2 aur CH-91) from a novel staphylococcal thiol protease operon ( stpAB2 CH-91) identified in S. aureus strain CH-91. Furthermore, we have expressed a staphostatin from Staphylococcus warneri (StpinB war) and characterized its target protease (StpBwar). Analysis of the reciprocal interactions among novel and previously described members of the staphostatin and staphopain families demonstrates that the co-transcribed protease is the primary target for each staphostatin. Nevertheless, the inhibitor derived from one species of Staphylococcus can inhibit the staphopain from another species, although the Ki values are generally higher and inhibition only occurs if both proteins belong to the same subgroup of either S. aureus staphopain A/staphostatin A (α group) or staphopain B/staphostatin B (β group) orthologs. This indicates that both subgroups arose in a single event of ancestral allelic duplication, followed by parallel evolution of the protease/inhibitor pairs. The tight coevolution is likely the result of the known deleterious effects of uncontrolled staphopain action. [ABSTRACT FROM AUTHOR]

Published

2007

12. Induction of vascular leakage through release of bradykinin and a novel kinin by cysteine proteinases from Staphylococcus aureus.

Author

Imamura, Takahisa, Tanase, Sumio, Szmyd, Grzegorz, Kozik, Andrzej, Travis, James, and Potempa, Jan

Subjects

ADVERSE health care events, BRADYKININ, KININS, CYSTEINE proteinases, STAPHYLOCOCCUS aureus, HYPOTENSION, GUINEA pigs as laboratory animals

Abstract

Staphylococcus aureus is a major pathogen of gram-positive septic shock and frequently is associated with consumption of plasma kininogen. We examined the vascular leakage (VL) activity of two cysteine proteinases that are secreted by S. aureus. Proteolytically active staphopain A (ScpA) induced VL in a bradykinin (BK) B2-receptor-dependent manner in guinea pig skin. This effect was augmented by staphopain B (SspB), which, by itself, had no VL activity. ScpA also produced VL activity from human plasma, apparently by acting directly on kininogens to release BK, which again was augmented significantly by SspB. Intravenous injection of ScpA into a guinea pig caused BK B2-receptor-dependent hypotension. ScpA and SspB together induced the release of leucyl-methionyl-lysyl-BK, a novel kinin with VL and blood pressure-towering activities that are equivalent to BK. Collectively, these data suggest that production of BK and leucyl-methionyl-lysyt-BK by staphopains is a new mechanism of S. aureus virulence and bacterial shock. Therefore, staphopain-specific inhibitors and kinin-receptor antagonists could be used to treat this disease. [ABSTRACT FROM AUTHOR]

Published

2005

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

Author

Sztukowska, Maryta, Sroka, Aneta, Bugno, Marcin, Banbula, Agnieszka, Takahashi, Yusuke, Pike, Robert N., Genco, Caroline A., Travis, James, and Potempa, Jan

Subjects

PORPHYROMONAS gingivalis, LYSINE, IMMUNOGLOBULIN G, CYSTEINE proteinases, POLYMERASE chain reaction, MONOCLONAL antibodies

Abstract

ThePorphyromonas gingivalislysine-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 inP. gingivalis, the wild-type form of the gene was replaced with deletion variants encoding C-terminally truncated proteins, including KgpΔHA3/4 (Δ1292–1732 aa), KgpΔHA2-4 (Δ1157–1732 aa), KgpΔHA1-4 (Δ738–1732 aa), KgpΔC-term/HA (Δ681–1732 aa) and KgpΔIg/C-term/HA (602–1732 aa). Northern blot and reverse transcription polymerase chain reaction (RT-PCR) analysis revealed that all truncated variants of thekgpgene were transcribed inP. gingivalis. Despite high levels ofkgpΔC-term/HA andkgpΔIg/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. Thekgpgene 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 theP. gingivalisouter membrane. Moreover, our results indicate that the immunoglobulin-like subdomain is indispensable for proper folding and expression of the gingipains. [ABSTRACT FROM AUTHOR]

Published

2004

14. Genetic characterization of staphopain genes in Staphylococcus aureus.

Author

Golonka, Ewa, Filipek, Renata, Sabat, Artur, Sinczak, Anna, and Potempa, Jan

Subjects

STAPHYLOCOCCUS aureus, GENES, CYSTEINE proteinases, GENETIC polymorphisms, MICROBIAL virulence

Abstract

Staphylococcus aureus , a leading cause of bacterial infections in humans, is endowed with a wealth of virulence factors that contribute to the disease process. Several extracellular proteolytic enzymes, including cysteine proteinases referred to as the staphopains (staphopain A, encoded by the scpA gene, and staphopain B, encoded by sspB ), have proposed roles for staphylococcal virulence. Here we present data regarding the distribution, copy number and genetic variability of the genes encoding the staphopains in a large number of S. aureus strains. The polymorphism of the scpA and sspB genes in three laboratory strains and 126 clinical isolates was analyzed by polymerase chain reaction (PCR)-restriction fragment length polymorphism (RFLP). Both genes were detected in all isolates by PCR amplification and, based on the PCR-RFLP patterns, classified as four types for scpA and six types for sspB . Those with the most divergent patterns were subjected to DNA sequencing and compared with genomic sequence data for the seven available strains of S. aureus . Southern blot analysis of the scpA and sspB sequences indicates that they are strongly conserved as single-copy genes in the genome of each S. aureus strain investigated. Taken together, these data suggest that the staphopains have important housekeeping and/or virulence functions, and therefore may constitute an interesting target for the development of therapeutic inhibitors for the treatment of staphylococcal diseases. [ABSTRACT FROM AUTHOR]

Published

2004

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

Author

Oleksy, Aneta, Golonka, Ewa, Banbula, Agnieszka, Szmyd, Grzegorz, Moon, Jonathan, Kubica, Malgorzata, Greenbaum, Doron, Bogyo, Matthew, Foster, Timothy J., Travis, James, and Potempa, Jan

Subjects

CYSTEINE proteinases, PROTEINASES, STAPHYLOCOCCUS, ELASTASES, AMINOPEPTIDASES, PROTEOLYTIC enzymes

Abstract

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 α1 PI, fibrinogen and fibronectin, may possibly contribute to the invasiveness and pathogenic potential of S. epidermidis. [ABSTRACT FROM AUTHOR]

Published

2004

16. Staphostatins: an expanding new group of proteinase inhibitors with a unique specificity for the regulation of staphopains, Staphylococcus spp. cysteine proteinases.

Author

Rzychon, Malgorzata, Sabat, Artur, Kosowska, Klaudia, Potempa, Jan, and Dubin, Adam

Subjects

CYSTEINE proteinases, STAPHYLOCOCCUS aureus, PROTEINS, PROKARYOTES

Abstract

Summary A novel type of cysteine proteinase inhibitor (SspC) has been recently recognized in Staphylococcus aureus (Massimi, I., Park, E., Rice, K., Muller-Esterl, W., Sauder, D.N., and McGavin, M.J. (2002) J Biol Chem 277: 41770–41777). In this paper we have identified homologous proteins encoded in the genome of S. aureus and other coagulase-negative Staphylococci . Collectively we refer to these proteins as staphostatins as they specifically inhibit cysteine proteinases (staphopains) from Staphylococcus spp. The primary structure of staphostatins seems to be unique, although they resemble cystatins in size (105–108 residues). Recombinant staphostatin A, a product of the scpB gene and staphostatin B (SspC) from S. aureus have been characterized in details. Similar to the cystatins, the staphostatins interact specifically with their target proteinases forming tight and stable non-covalent complexes, staphostatin A with staphopain A and staphostatin B with staphopain B. However, in contrast to the cystatins, each of which inhibits broad range of cathepsins, complex formation between staphostatin and staphopain appears to be exclusive, with no cross interaction observed. In addition, the activities of several tested cysteine proteinases of prokaryotic- and eukaryotic-origin were not affected by staphostatins. Such narrow specificity limited to staphopains is presumed to be required to protect staphylococcal cytoplasmic proteins from being degraded by prematurely activated/folded prostaphopains. This function is guaranteed through the unique co-expression of the secreted proteinase and the intracellular inhibitor from the same operon, and represents a unique mechanism of regulation of proteolytic activity in Gram-positive bacteria. [ABSTRACT FROM AUTHOR]

Published

2003

17. Role of Gingipains R in the Pathogenesis of Porphyromonas gingivatis--Mediated Periodontal Disease.

Author

Genco, Caroline Attardo, Potempa, Jan, Mikolajcyzk-Pawlinska, Jowita, and Travis, James

Subjects

*CYSTEINE proteinases, *PERIODONTAL disease, *HEMAGGLUTININ, *PATHOLOGY, *PHYSIOLOGY

Abstract

Examines the role of cysteine proteinases (gingipains R) in the pathogenesis of Porphyromonas gingivalis-mediated periodontal disease. Association of proteinase/hemagglutinin with the bacterial surface; Location of the functional subdomains within the hemagglutinin domain; Biological functions of the arginine- and lysine-specific cysteine proteinases; Clinical hallmarks of periodontitis.

Published

1999

18. Crystal structure of gingipain R: an Arg-specific bacterial cysteine proteinase with a caspase-like fold.

Author

Eichinger, Andreas, Beisel, Hans-Georg, Jacob, Uwe, Huber, Robert, Medrano, Francisco-Javier, Banbula, Agnieszka, Potempa, Jan, Travis, Jim, and Bode, Wolfram

Subjects

CYSTEINE proteinases, PORPHYROMONAS gingivalis, PERIODONTITIS, PERIODONTAL disease, IMMUNOGLOBULINS, ARGININE

Abstract

Gingipains are cysteine proteinases acting as key virulence factors of the bacterium Porphyromonas gingivalis the major pathogen in periodontal disease. The 1.5 and 2.0 Å crystal structures of free and D-Phe—Phe—Arg-chloromethylketone-inhibited gingipain R reveal a 435-residue, single-polypeptide chain organized into a catalytic and an immunoglobulin-like domain. The catalytic domain is subdivided into two subdomains comprising four-and six-stranded β-sheets sandwiched by α-helices. Each subdomain bears topological similarities to the p20— p10 heterodimer of caspase-1. The second subdomain harbours the Cys— His catalytic diad and a nearby Glu arranged around the S1 specificity pocket, which carries all Asp residue to enforce preference for Arg-P1 residues. This gingipain R structure is an excellent template for the rational design of drugs with a potential to cure and prevent periodontitis. Here we show the binding mode of an arginine-containing inhibitor in the active-site, thus identifying major interaction sites defining a suitable pharmacophor. [ABSTRACT FROM AUTHOR]

Published

1999

19. Cleavage of extracellular matrix in periodontitis: Gingipains differentially affect cell adhesion activities of fibronectin and tenascin-C

Author

Ruggiero, Sabrina, Cosgarea, Raluca, Potempa, Jan, Potempa, Barbara, Eick, Sigrun, and Chiquet, Matthias

Subjects

*EXTRACELLULAR matrix, *PERIODONTITIS, *CELL adhesion, *FIBRONECTINS, *TENASCIN, *CYSTEINE proteinases

Abstract

Abstract: Gingipains are cysteine proteases that represent major virulence factors of the periodontopathogenic bacterium Porphyromonas gingivalis. Gingipains are reported to degrade extracellular matrix (ECM) of periodontal tissues, leading to tissue destruction and apoptosis. The exact mechanism is not known, however. Fibronectin and tenascin-C are pericellular ECM glycoproteins present in periodontal tissues. Whereas fibronectin mediates fibroblast adhesion, tenascin-C binds to fibronectin and inhibits its cell-spreading activity. Using purified proteins in vitro, we asked whether fibronectin and tenascin-C are cleaved by gingipains at clinically relevant concentrations, and how fragmentation by the bacterial proteases affects their biological activity in cell adhesion. Fibronectin was cleaved into distinct fragments by all three gingipains; however, only arginine-specific HRgpA and RgpB but not lysine-specific Kgp destroyed its cell-spreading activity. This result was confirmed with recombinant cell-binding domain of fibronectin. Of the two major tenascin-C splice variants, the large but not the small was a substrate for gingipains, indicating that cleavage occurred primarily in the alternatively spliced domain. Surprisingly, cleavage of large tenascin-C variant by all three gingipains generated fragments with increased anti-adhesive activity towards intact fibronectin. Fibronectin and tenascin-C fragments were detected in gingival crevicular fluid of a subset of periodontitis patients. We conclude that cleavage by gingipains directly affects the biological activity of both fibronectin and tenascin-C in a manner that might lead to increased cell detachment and loss during periodontal disease. [Copyright &y& Elsevier]

Published

2013

20. Degradation of Host Heme Proteins by Lysine- and Arginine-Specific Cysteine Proteinases Gingipain...

Author

Sroka, Aneta, Sztukowska, Maryta, Potempa, Jan, Travis, James, and Genco, Caroline Attardo

Subjects

*HEMOPROTEINS, *CYSTEINE proteinases, *PORPHYROMONAS gingivalis

Abstract

Studies the degradation of host heme proteins by lysine- and arginine-specific cysteine proteinases of Porphyromonas gingivalis. Functions of Porphyromonas gingivalis proteolytic enzymes in hemoglobin degradation and heme release; Degradation of haptoglobin and the haptoglobin-hemoglobin complex by gingipains; Hemopexin degradation by gingipains.

Published

2001

21. Proteolytic processing and activation of gingipain zymogens secreted by T9SS of Porphyromonas gingivalis.

Author

Veillard, Florian, Sztukowska, Maryta, Nowakowska, Zuzanna, Mizgalska, Danuta, Thøgersen, Ida B., Enghild, Jan J., Bogyo, Matthew, Potempa, Barbara, Nguyen, Ky-Anh, and Potempa, Jan

Subjects

*ZYMOGENS, *PORPHYROMONAS gingivalis, *BACTERIAL cell surfaces, *BACTERIAL proteins, *CYSTEINE proteinases, *PROTEOLYTIC enzymes

Abstract

Porphyromonas gingivalis uses a type IX secretion system (T9SS) to deliver more than 30 proteins to the bacterial surface using a conserved C-terminal domain (CTD) as an outer membrane translocation signal. On the surface, the CTD is cleaved and an anionic lipopolysaccharide (A-PLS) is attached by PorU sortase. Among T9SS cargo proteins are cysteine proteases, gingipains, which are secreted as inactive zymogens requiring removal of an inhibiting N-terminal prodomain (PD) for activation. Here, we have shown that the gingipain proRgpB isolated from the periplasm of a T9SS-deficient P. gingivalis strain was stable and did not undergo autocatalytic activation. Addition of purified, active RgpA or RgpB, but not Lys-specific Kgp, efficiently cleaved the PD of proRgpB but catalytic activity remained inhibited because of inhibition of the catalytic domain in trans by the PD. In contrast, active RgpB was generated from the zymogen, although at a slow rate, by gingipain-null P. gingivalis lysate or intact bacterial cell suspension. This activation was dependent on the presence of the PorU sortase. Interestingly, maturation of proRgpB with the catalytic cysteine residues mutated to Ala expressed in the ΔRgpA mutant strain was indistinguishable from that in the parental strain. Cumulatively, this suggests that PorU not only has sortase activity but is also engaged in activation of gingipain zymogens on the bacterial cell surface. • Gingipains are secreted via T9SS as inactive, stable zymogens. • Progingipain autoproteolytic processing does not release activity. • Zymogen activation requires removal of N-terminal inhibitory prodomain. • Inhibitory prodomain is removed in T9SS sortase (PorU)-dependent manner. • PorU-dependent progingipain processing prevents their premature activation. [ABSTRACT FROM AUTHOR]

Published

2019

22. Gingipains of Porphyromonas gingivalis Affect the Stability and Function of Serine Protease Inhibitor of Kazal-type 6 (SPINK6), a Tissue Inhibitor of Human Kallikreins.

Author

Plaza, Karolina, Kalinska, Magdalena, Bochenska, Oliwia, Meyer-Hoffert, Ulf, Zhihong Wu, Fischer, Jan, Falkowski, Katherine, Sasiadek, Laura, Bielecka, Ewa, Potempa, Barbara, Kozik, Andrzej, Potempa, Jan, and Kantyka, Tomasz

Subjects

*PORPHYROMONAS gingivalis, *SERINE proteinases, *PERIODONTITIS, *CYSTEINE proteinases, *BIOMARKERS, *CANCER invasiveness

Abstract

Periodontitis, a chronic inflammation driven by dysbiotic subgingival bacterial flora, is linked on clinical levels to the development of a number of systemic diseases and to the development of oral and gastric tract tumors. A key pathogen, Porphyromonas gingivalis, secretes gingipains, cysteine proteases implicated as the main factors in the development of periodontitis. Here we hypothesize that gingipains may be linked to systemic pathologies through the deregulation of kallikrein-like proteinase (KLK) family members. KLKs are implicated in cancer development and are clinically utilized as tumor progression markers. In tissues, KLK activity is strictly controlled by a limited number of tissue-specific inhibitors, including SPINK6, an inhibitor of these proteases in skin and oral epithelium. Here we identify gingipains as the only P. gingivalis proteases responsible for SPINK6 degradation. We further show that gingipains, even at low nanomolar concentrations, cleaved SPINK6 in concentration- and time-dependent manner. The proteolysis was accompanied by loss of inhibition against KLK13. We also mapped the cleavage by Arg-specific gingipains to the reactive site loop of the SPINK6 inhibitor. Moreover, we identified a significant fraction of SPINK6-sensitive proteases in healthy saliva and confirmed the ability of gingipains to inactivate SPINK6 under ex vivo conditions. Finally, we demonstrate the double-edge action of gingipains, which, in addition, can activate KLKs because of gingipain K-mediated proteolytic processing of the zymogenic proform of KLK13. Altogether, the results indicate the potential of P. gingivalis to disrupt the control system of KLKs, providing a possible mechanistic link between periodontal disease and tumor development. [ABSTRACT FROM AUTHOR]

Published

2016

23. Inhibition of gingipains by their profragments as the mechanism protecting Porphyromonas gingivalis against premature activation of secreted proteases.

Author

Veillard, Florian, Sztukowska, Maryta, Mizgalska, Danuta, Ksiazek, Mirosław, Houston, John, Potempa, Barbara, Enghild, Jan J., Thogersen, Ida B., Gomis-Rüth, F. Xavier, Nguyen, Ky-Anh, and Potempa, Jan

Subjects

*PORPHYROMONAS gingivalis, *PROTEOLYTIC enzymes, *ARGININE, *LYSINE, *CYSTEINE proteinases, *ZYMOGENS, *PROTEOLYSIS

Abstract

Abstract: Background: Arginine-specific (RgpB and RgpA) and lysine-specific (Kgp) gingipains are secretory cysteine proteinases of Porphyromonas gingivalis that act as important virulence factors for the organism. They are translated as zymogens with both N- and C-terminal extensions, which are proteolytically cleaved during secretion. In this report, we describe and characterize inhibition of the gingipains by their N-terminal prodomains to maintain latency during their export through the cellular compartments. Methods: Recombinant forms of various prodomains (PD) were analyzed for their interaction with mature gingipains. The kinetics of their inhibition of proteolytic activity along with the formation of stable inhibitory complexes with native gingipains was studied by gel filtration, native PAGE and substrate hydrolysis. Results: PDRgpB and PDRgpA formed tight complexes with arginine-specific gingipains (Ki in the range from 6.2nM to 0.85nM). In contrast, PDKgp showed no inhibitory activity. A conserved Arg-102 residue in PDRgpB and PDRgpA was recognized as the P1 residue. Mutation of Arg-102 to Lys reduced inhibitory potency of PDRgpB by one order of magnitude while its substitutions with Ala, Gln or Gly totally abolished the PD inhibitory activity. Covalent modification of the catalytic cysteine with tosyl-l-Lys-chloromethylketone (TLCK) or H-D-Phe-Arg-chloromethylketone did not affect formation of the stable complex. Conclusion: Latency of arginine-specific progingipains is efficiently exerted by N-terminal prodomains thus protecting the periplasm from potentially damaging effect of prematurely activated gingipains. General significance: Blocking progingipain activation may offer an attractive strategy to attenuate P. gingivalis pathogenicity. [Copyright &y& Elsevier]

Published

2013

24. Site-specific O-Glycosylation on the MUC2 Mucin Protein Inhibits Cleavage by the Porphyromonas gingivalis Secreted Cysteine Protease (RgpB).

Author

van der Post, Sjoerd, Subramani, Durai B., Bäckström, Malin, Johansson, Malin E. V., Vester-Christensen, Malene B., Mandel, Ulla, Bennett, Eric P., Clausen, Henrik, Dahlén, Gunnar, Sroka, Aneta, Potempa, Jan, and Hansson, Gunnar C.

Subjects

*GLYCOSYLATION, *PORPHYROMONAS gingivalis, *CYSTEINE proteinases, *PROTEOLYTIC enzymes, *PERIODONTAL disease, *ENTAMOEBA histolytica, *CHEMICAL reactions

Abstract

The colonic epithelial surface is protected by an inner mucus layer that the commensal microflora cannot penetrate. We previously demonstrated that Entamoeba histolytica secretes a protease capable of dissolving this layer that is required for parasite penetration. Here, we asked whether there are bacteria that can secrete similar proteases. We screened bacterial culture supernatants for such activity using recombinant fragments of the MUC2 mucin, the major structural component, and the only gel-forming mucin in the colonic mucus. MUC2 has two central heavily O-glycosylated mucin domains that are protease-resistant and has cysteine-rich N and C termini responsible for polymerization. Culture supernatants of Porphyromonas gingivalis, a bacterium that secretes proteases responsible for periodontitis, cleaved the MUC2 C-terminal region, whereas the N-terminal region was unaffected. The active enzyme was isolated and identified as Arg-gingipain B (RgpB). Two cleavage sites were localized to IR ↓ TT and NR ↓ QA. IR ↓ TT cleavage will disrupt the MUC2 polymers. Because this site has two potential O-glycosylation sites, we tested whether recombinant GalNAc-transferases (GalNAc-Ts) could glycosylate a synthetic peptide covering the IRTT sequence. Only GalNAc-T3 was able to glycosylate the second Thr in IRTT, rendering the sequence resistant to cleavage by RgpB. Furthermore, when GalNAc-T3 was expressed in CHO cells expressing the MUC2 C terminus, the second threonine was glycosylated, and the protein became resistant to RgpB cleavage. These findings suggest that bacteria can produce proteases capable of dissolving the inner protective mucus layer by specific cleavages in the MUC2 mucin and that this cleavage can be modulated by site-specific O-glycosylation. [ABSTRACT FROM AUTHOR]

Published

2013

25. Substrate specificity of Staphylococcus aureus cysteine proteases – Staphopains A, B and C

Author

Kalińska, Magdalena, Kantyka, Tomasz, Greenbaum, Doron C., Larsen, Katrine S., Władyka, Benedykt, Jabaiah, Abeer, Bogyo, Matthew, Daugherty, Patrick S., Wysocka, Magdalena, Jaros, Marcelina, Lesner, Adam, Rolka, Krzysztof, Schaschke, Norbert, Stennicke, Henning, Dubin, Adam, Potempa, Jan, and Dubin, Grzegorz

Subjects

*STAPHYLOCOCCUS aureus, *CYSTEINE proteinases, *FLUORESCENCE resonance energy transfer, *NITROBENZOIC acid, *GREEN fluorescent protein, *IMMUNOSPECIFICITY

Abstract

Abstract: Human strains of Staphylococcus aureus secrete two papain-like proteases, staphopain A and B. Avian strains produce another homologous enzyme, staphopain C. Animal studies suggest that staphopains B and C contribute to bacterial virulence, in contrast to staphopain A, which seems to have a virulence unrelated function. Here we present a detailed study of substrate preferences of all three proteases. The specificity of staphopain A, B and C substrate-binding subsites was mapped using different synthetic substrate libraries, inhibitor libraries and a protein substrate combinatorial library. The analysis demonstrated that the most efficiently hydrolyzed sites, using Schechter and Berger nomenclature, comprise a P2–Gly↓Ala(Ser) sequence motif, where P2 distinguishes the specificity of staphopain A (Leu) from that of both staphopains B and C (Phe/Tyr). However, we show that at the same time the overall specificity of staphopains is relaxed, insofar as multiple substrates that diverge from the sequences described above are also efficiently hydrolyzed. [Copyright &y& Elsevier]

Published

2012

26. Regulation of Chemerin Chemoattractant and Antibacterial Activity by Human Cysteine Cathepsins.

Author

Kulig, Paulina, Kantyka, Tomasz, Zabel, Brian A., Bana, Magdalena, Chyra, Agnieszka, Stefańska, Anna, Hua Tu, Allen, Samantha J., Handel, Tracy M., Kozik, Andrzej, Potempa, Jan, Butcher, Eugene C., and Cichy, Joanna

Subjects

*CHEMOKINES, *DENDRITIC cells, *ANTIBACTERIAL agents, *CYSTEINE proteinases, *ENTEROBACTERIACEAE, *POLYPEPTIDES

Abstract

Chemerin, a ligand for the G-protein coupled receptor chemokine-like receptor 1, requires C-terminal proteolytic processing to unleash its chemoattractant activity. Proteolytically processed chemerin selectively attracts specific subsets of immunoregulatory APCs, including chemokine-like receptor 1-positive immature plasmacytoid dendritic cells (pDC). Chemerin is predicted to belong to the structural cathelicidin/cystatin family of proteins composed of antibacterial polypeptide cathelicidins and inhibitors of cysteine proteinases (cystatins). We therefore hypothesized that chemerin may interact directly with cysteine proteases, and that it might also function as an antibacterial agent. In this article, we show that chemerin does not inhibit human cysteine proteases, but rather is a new substrate for cathepsin (cat) K and L. cat K- and L-cleaved chemerin triggered robust migration of human blood-derived pDC ex vivo. Furthermore, cat K- and L-truncated chemerin also displayed antibacterial activity against Enterobacteriaceae. Cathepsins may therefore contribute to host defense by activating chemerin to directly inhibit bacterial growth and to recruit pDC to sites of infection. [ABSTRACT FROM AUTHOR]

Published

2011

27. A New Autocatalytic Activation Mechanism for Cysteine Proteases Revealed by Prevotella intermedia Interpain A.

Author

MaIIorquí-Fernández, Noemí, Manandhar, Surya P., MaIIorquí-Fernández, Goretti, Usón, Isabel, Wawrzonek, Katarzyna, Kantyka, Tomasz, SoIà, Maria, Thøgersen, Ida B., Enghild, Jan J., Potempa, Jan, and Gomis-Rüth, F. Xavier

Subjects

*CYSTEINE proteinases, *PERIODONTITIS, *TRYPTOPHAN, *PATHOGENIC microorganisms, *PORPHYROMONAS gingivalis

Abstract

Prevotella intermedia is a major periodontopathogen contributing to human gingivitis and periodontitis. Such pathogens release proteases as virulence factors that cause deterrence of host defenses and tissue destruction. A new cysteine protease from the cysteine-histidine-dyad class, interpain A, was studied in its zymogenic and self-processed mature forms. The latter consists of a bivalved moiety made up by two subdomains. In the structure of a catalytic cysteine-to-alanine zymogen variant, the right subdomain interacts with an unusual prodomain, thus contributing to latency. Unlike the catalytic cysteine residue, already in its competent conformation in the zymogen, the catalytic histidine is swung out from its active conformation and trapped in a cage shaped by a backing helix, a zymogenic hairpin, and a latency flap in the zymogen. Dramatic rearrangement of up to 20 Å of these elements triggered by a tryptophan switch occurs during activation and accounts for a new activation mechanism for proteolytic enzymes. These findings can be extrapolated to related potentially pathogenic cysteine proteases such as Streprococcuspyogenes SpeB and Porphyromonas gingivalis periodontain. [ABSTRACT FROM AUTHOR]

Published

2008

28. Prostaphopain B Structure: A Comparison of Proregion-Mediated and Staphostatin-Mediated Protease Inhibition.

Author

Filipek, Renata, Szczepanowski, Roman, Sabat, Artur, Potempa, Jan, and Bochtler, Matthias

Subjects

*PROTEOLYTIC enzymes, *CYSTEINE proteinases, *PATHOGENIC microorganisms, *STAPHYLOCOCCUS aureus, *PROTEINS, *BIOCHEMISTRY

Abstract

Prostaphopain B is the precursor of staphopain B, a papain-type secreted cysteine protease from the pathogen Staphylococcus aureus. Here, we describe the 2.5 Å crystal structure of the proenzyme. Its 21 kDa proregion is organized around a central half-barrel or barrel-sandwich hybrid and occludes primed, but not nonprimed, sites in the active site cleft of the protease. The structure of the mature part of the protease is similar to previously reported staphopain structures, and no distortion of the catalytic residues is apparent at 2.5 Å resolution. A comparison of prostaphopain B with the staphopain B-staphostatin B complex shows that the proregion and the inhibitor interact with largely nonoverlapping parts of the protease surface. In a modeled complex of prostaphopain B with staphostatin B, clashes occur both inside and outside the active site cleft, but involve mostly poorly ordered regions of the protein that may be mobile. [ABSTRACT FROM AUTHOR]

Published

2004