Summary
Rubrerythrins are non‐haem iron proteins that have been implicated in oxidative stress protection in anaerobic bacteria and archaea. However, up to now, this role has not been confirmed directly by inactivation of a rubrerythrin gene. Here we report generation of an rbr− mutant of Porphyromonas gingivalis, an obligately anaerobic gingival pathogenic bacterium. Characterization of the rbr− strain clearly showed that P. gingivalis produces a rubrerythrin‐like protein that is absent in the rbr− strain, and that the P. gingivalis rbr− strain is more dioxygen‐ and hydrogen peroxide‐sensitive than the wild type. The latter conclusion is based on two independent results, namely, deeper no‐growth zones upon diffusion of the oxidants through soft agar culture tubes and growth impairment of liquid cultures exposed to the oxidants. A same‐site rbr+ revertant showed increased hydrogen peroxide and dioxygen resistance relative to the rbr− strain. Transcription of the P. gingivalis rubrerythrin gene is induced above its constitutive anaerobic level in response to dioxygen or hydrogen peroxide exposures. Purified rubrerythrins from other organisms have been shown to catalyse reduction of hydrogen peroxide, while showing relatively sluggish reaction with dioxygen and little or no catalase or superoxide dismutase activities. Porphyromonas gingivalis contains a superoxide dismutase but lacks catalase and haem peroxidases. We therefore suggest that rubrerythrin provides oxidative stress protection via catalytic reduction of intracellular hydrogen peroxide.
The rat tissue inhibitor of metalloproteinase 1 (TIMP-1) gene is expressed in rat hepatocytes, and this expression is up-regulated by interleukin 6 (IL-6). We report here the cloning of the 5' flanking region of the rat TIMP-1 gene and identification of an IL-6/oncostatin M (OSM) response element at -64 to -36 which functions in hepatic cells. Within this element we have identified two functional binding sites for transcription factors AP-1 (activatory protein-1) and STAT (signal transducer and activator of transcription). IL-6/OSM stimulation induces binding of a protein, identified as STAT3, to the IL-6/OSM response element, while binding of the AP-1 protein was constitutive. Binding sites for both AP-1 and STAT3 are necessary for full responsiveness of the TIMP-1 promoter to IL-6/OSM, as shown by deletion and mutation analysis. Furthermore, the entire IL-6/OSM response element conferred responsiveness onto a heterologous promoter, whereas this has not been observed when AP-1 and STAT elements were separately tested.
Cytokine-dependent regulation of tissue inhibitors of metalloproteinases (TIMPs) expression provides an important mechanism for controlling the activity of matrix metalloproteinases. We present data indicating that during inflammatory processes TIMP-1 and TIMP-3 may be involved in the proteolytic remodeling of subendothelial basement membrane of the brain microvascular system, a key step during leukocyte migration into the brain perivascular tissue. In brain endothelial cells the expression of TIMP-1 is dramatically up-regulated by major proinflammatory cytokines, with the combination of interleukin-1L L (IL-1L L) and tumor necrosis factor-K K (TNFK K) exhibiting the strongest synergistic stimulation. Simultaneously, IL-1L L/TNFK K almost completely blocks TIMP-3 expression. Both synergistic effects are dose-dependent within the concentration range 0.05^5 ng/ml of both cytokines and correlate with the expression of inducible nitric oxide synthase, an endothelial cell activation marker. Down-regulation of TIMP-3 expression is also detected in astrocytes treated with TNFK K or IFN-Q Q, whereas oncostatin M as well as TNFK K up-regulate TIMP-1 mRNA level. We propose that the cytokine-modified balance between TIMP-1 and TIMP-3 expression provides a potential mechanism involved in the regulation of microvascular basement membrane proteolysis.z 1999 Federation of European Biochemical Societies.
Porphyromonas gingivalis is an asaccharolytic and anaerobic bacterium that possesses a complex proteolytic system which is essential for its growth and evasion of host defense mechanisms. In this report, we show the purification and characterization of prolyl dipeptidyl peptidase IV (DPPIV) produced by this organism. The enzyme was purified to homogeneity, and its enzymatic activity and biochemical properties were investigated. P. gingivalis DPPIV, like its human counterpart, is able to cleave the N terminus of synthetic oligopeptides with sequences analogous to those of interleukins 1 and 2. Additionally, this protease hydrolyzes biologically active peptides including substance P, fibrin inhibitory peptide, and -casomorphin. Southern blot analysis of genomic DNA isolated from several P. gingivalis strains reveal that a single copy of the DPPIV gene was present in all strains tested.
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