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Query: UMLS:C0085437 (
bacterial meningitis
)
4,038
document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)
Matrix metalloproteinases (MMPs) are implicated in the pathogenesis of various inflammatory diseases of the central nervous system. Evidence is accumulating that gelatinase B (MMP-9) might be involved in the pathogenesis of meningitis, but the spectrum of different MMPs involved in the inflammatory reaction of this disease has not been determined. We investigated the temporal and spatial mRNA expression pattern of gelatinase B in experimental meningococcal meningitis in rats. In contrast to controls, increased mRNA levels with peak values 6 h after injection with menigococci were found in brain specimens of the animals. Elevated MMP-9 mRNA expression was accompanied by enhanced proteolytic activity, as demonstrated by gelatin zymography, and positive immunoreactivity. The mRNA expression pattern of six other MMPs was investigated. Collagenase-3 and
stromelysin
-1 mRNAs were also found to be upregulated. In contrast, mRNA levels for gelatinase A, matrilysin,
stromelysin
-2 and stromelysin-3 remained unchanged. As evidenced by significantly increased intracranial pressure and by leakage of intravenously injected Evans blue through the blood vessel walls into the brain parenchyma, the animals injected with meningococci revealed signs of blood-brain barrier disruption. Augmented proteolytic activity of MMP-9 could also be demonstrated in CSF samples obtained from patients with
bacterial meningitis
, underlining the clinical relevance of our experimental findings. Our data indicate that gelatinase B, collagenase-3 and
stromelysin
-1 are selectively upregulated in
bacterial meningitis
and thus may contribute to the pathogenesis of this infectious disease of the central nervous system.
...
PMID:Differential expression of matrix metalloproteinases in bacterial meningitis. 1043 Aug 40
The present study was performed to evaluate the role of matrix metalloproteinases (MMP) in the pathogenesis of the inflammatory reaction and the development of neuronal injury in a rat model of
bacterial meningitis
. mRNA encoding specific MMPs (
MMP-3
, MMP-7, MMP-8, and MMP-9) and the inflammatory cytokine tumor necrosis factor alpha (TNF-alpha) were significantly (P < 0.04) upregulated, compared to the beta-actin housekeeping gene, in cortical homogenates at 20 h after infection. In parallel, concentrations of MMP-9 and TNF-alpha in cerebrospinal fluid (CSF) were significantly increased in rats with
bacterial meningitis
compared to uninfected animals (P = 0.002) and showed a close correlation (r = 0.76; P < 0. 001). Treatment with a hydroxamic acid-type MMP inhibitor (GM6001; 65 mg/kg intraperitoneally every 12 h) beginning at the time of infection significantly lowered the MMP-9 (P < 0.02) and TNF-alpha (P < 0.02) levels in CSF. Histopathology at 25.5 +/- 5.7 h after infection showed neuronal injury (median [range], 3.5% [0 to 17.5%] of the cortex), which was significantly (P < 0.01) reduced to 0% (0 to 10.8%) by GM6001. This is the first report to demonstrate that MMPs contribute to the development of neuronal injury in
bacterial meningitis
and that inhibition of MMPs may be an effective approach to prevent brain damage as a consequence of the disease.
...
PMID:Matrix metalloproteinases contribute to brain damage in experimental pneumococcal meningitis. 1063 24
To evaluate the spectrum and regulation of matrix metalloproteinases (MMPs) in
bacterial meningitis
(BM), concentrations of MMP-2,
MMP-3
, MMP-8, and MMP-9 and endogenous inhibitors of metalloproteinases (TIMP-1 and TIMP-2) were measured in the cerebrospinal fluid (CSF) of 27 children with BM. MMP-8 and MMP-9 were detected in 91% and 97%, respectively, of CSF specimens from patients but were not detected in control patients. CSF levels of MMP-9 were higher (P<.05) in 5 patients who developed hearing impairment or secondary epilepsy than in those who recovered without neurological deficits. Levels of MMP-9 correlated with concentrations of TIMP-1 (P<.001) and tumor necrosis factor-alpha (P=.03). Repeated lumbar punctures showed that levels of MMP-8 and MMP-9 were regulated independently and did not correlate with the CSF cell count. Therefore, MMPs may derive not only from granulocytes infiltrating the CSF space but also from parenchymal cells of the meninges and brain. High concentrations of MMP-9 are a risk factor for the development of postmeningitidal neurological sequelae.
...
PMID:Matrix metalloproteinase (MMP)-8 and MMP-9 in cerebrospinal fluid during bacterial meningitis: association with blood-brain barrier damage and neurological sequelae. 1091 1
Increased permeability of the blood-brain barrier (BBB) is important in neurological disorders. Neuroinflammation is associated with increased BBB breakdown and brain injury. Tumor necrosis factor (TNF)-alpha is involved in BBB injury and edema formation through a mechanism involving matrix metalloproteinase (MMP) up-regulation. There is emerging evidence indicating that cyclooxygenase (COX) inhibition limits BBB disruption following ischemic stroke and
bacterial meningitis
, but the mechanisms involved are not known. We used intracerebral injection of TNF-alpha to study the effect of COX inhibition on TNF-alpha-induced BBB breakdown, MMP expression/activity, and oxidative stress. BBB disruption was evaluated by the uptake of (14)C-sucrose into the brain and by magnetic resonance imaging utilizing gadolinium-diethylenetriaminepentaacetic acid as a paramagnetic contrast agent. Using selective inhibitors of each COX isoform, we found that COX-1 activity is more important than COX-2 in BBB opening. TNF-alpha induced a significant up-regulation of gelatinase B (MMP-9),
stromelysin
-1 (
MMP-3
), and COX-2. In addition, TNF-alpha significantly depleted glutathione as compared with saline. Indomethacin (10 mg/kg i.p.), an inhibitor of COX-1 and COX-2, reduced BBB damage at 24 h. Indomethacin significantly attenuated MMP-9 and
MMP-3
expression and activation and prevented the loss of endogenous radical scavenging capacity following intracerebral injection of TNF-alpha. Our results show for the first time that BBB disruption during neuroinflammation can be significantly reduced by administration of COX inhibitors. Modulation of COX in brain injury by COX inhibitors or agents modulating prostaglandin E(2) formation/signaling may be useful in clinical settings associated with BBB disruption.
...
PMID:Cyclooxygenase inhibition limits blood-brain barrier disruption following intracerebral injection of tumor necrosis factor-alpha in the rat. 1770 56
Apart from antibiotic treatment in
bacterial meningitis
supportive therapy including dexamethasone is widely used. In investigations on the pathogenesis of
bacterial meningitis
we previously demonstrated that Streptococcus suis (S. suis), a relevant cause of
bacterial meningitis
in pigs and humans, affects porcine choroid plexus epithelial cell (PCPEC) barrier function. The choroid plexus epithelium constitutes the structural basis of the blood-CSF barrier. Now, we investigated the role of tight junction proteins and the actin cytoskeleton of PCPEC in correlation to barrier function after S. suis infection and analyzed the influence of dexamethasone. S. suis caused massive rearrangement of the tight junction proteins ZO-1, occludin and claudin-1, caused loss of actin at the apical cell pole and induced basolateral stress fiber formation. Moreover, tight junctions were shifted from the Triton X insoluble to the Triton X soluble fraction, and additionally occludin was dephosphorylated and degraded. Infection with S. suis leads to an inflammatory response exemplified by the induction of tumor necrosis factor (TNF) alpha and matrix metalloproteinase (MMP)-3 gene activation, which correlated with phosphorylation of extracellular signal regulated kinases (ERKs). Importantly, dexamethasone significantly prevented S.suis-induced protein and morphological tight junction alterations and attenuated ERK activation and
MMP-3
expression. It especially improved the barrier function by preventing tight junction protein reorganization and degradation. In the pathogenesis of
bacterial meningitis
protection of blood-CSF barrier by dexamethasone may prevent the penetration of bacteria and leukocytes into the CSF.
...
PMID:Dexamethasone prevents alteration of tight junction-associated proteins and barrier function in porcine choroid plexus epithelial cells after infection with Streptococcus suis in vitro. 1864 52
Research on matrix metalloproteinases (MMPs) and in particular on gelatinase B, alias MMP-9, has grown exponentially in the decade 2003-2012. Structural details about flexibility of MMP-9 monomers, together with glycosylation, oligomerization, heterogeneity and instability of the wildtype enzyme explain why crystallography experiments have not yet been successful for the intact enzyme. MMP-9 may be viewed as a multidomain enzyme in which the hemopexin, the O-glycosylated and the catalytic domains yield support for attachment, articulation and catalysis, respectively. The stepwise proteolytic activation of the inactive zymogen into a catalytically active form becomes gradually better understood. Priming of activation by
MMP-3
may be executed by meprins that destabilize the interaction of the aminoterminus with the third fibronectin repeat. Alternatively, autocatalytic activation may occur in the presence of molecules that tightly bind to the catalytic site and that push the cystein residue in the prodomain away from the catalytic zinc ion. Thanks to the development of degradomics technologies, substrate repertoires of MMP-9 have been defined, but it remains a challenge to determine and prove which substrates are biologically relevant. The substrate repertoire has been enlarged from extracellular to membrane-bound and efficient intracellular substrates, such as crystallins, tubulins and actins. Biological studies of MMP-9 have tuned the field from being primarily cancer-oriented towards vascular and inflammatory research. In tumor biology, it has been increasingly appreciated that MMP-9 from inflammatory cells, particularly neutrophils, co-determines prognosis and outcome. Aside from the catalytic functions executed by aminoterminal domains of MMP-9, the carboxyterminal hemopexin (PEX) domain of gelatinase B exerts non-catalytic anti-apoptotic signaling effects. The recognition that gelatinase B is induced by many pro-inflammatory cytokines, whereas its inhibitors are increased by anti-inflammatory cytokines, has generated interest to target MMP-9 in acute lethal conditions, such as
bacterial meningitis
, sepsis and endotoxin shock, and in acute exacerbations of chronic diseases. Previously described transcriptional regulation of MMP-9 is complemented by epigenetic checkpoints, including histone modifications and microRNAs. Because activation of proMMP-9 may be executed by other MMPs, the therapeutic dogma that MMP inhibitors need to be highly selective may be keyed down for the treatment of life-threatening conditions. When inflammation and MMP-9 fulfill beneficial functions to clear damaging protein complexes, such as in systemic autoimmune diseases, therapeutic MMP inhibition has to be avoided. In Mmp9 gene knockout mice, specific spontaneous phenotypes emerged with effects on the skeletal, reproductive and nervous systems. These findings not only have clinical correlates in bone growth and fertility, but also stimulate research on the roles of MMPs and MMP-9 in endocrinology, immunology and the neurosciences. Mmp9-deficient mice are valuable tools to define MMP-9 substrates in vivo and to study the role of this enzyme in animal models of inflammatory, vascular, neoplastic and degenerative diseases. Future challenges include solving the crystal structure, definition of the functions of covalent oligomers and heteromers in biology and pathology, life-imaging of MMP-9 activity, substrate determination in situ and the study of inhibitor effects on fertility, cancer and inflammation and in neurobiology and regenerative medicine. Such studies will better define conditions in which inhibition of MMP-9 is beneficial or has to be avoided.
...
PMID:Biochemistry and molecular biology of gelatinase B or matrix metalloproteinase-9 (MMP-9): the next decade. 2354 85
