Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0085437 (bacterial meningitis)
4,038 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Pathophysiologic disorders in bacterial meningitis and their influence on the course and prognosis of the disease are analysed. Deterioration of the CNS is due to inflammatory response of the host combined with other pathophysiological disorders. Inflammatory response in the subarachnoid space is the most intensive, but the most deleterious, as well, in the first several hours of antibiotic therapy when bacterial disintegration ensues. Fragments of the cell wall and endotoxin are very active components, independent of the presence of living bacteria in the subarachnoid space. Each microorganism induces different inflammatory response, and the course of the disease is, therefore, also different. Bacterial disintegration reta and release of the components are determined by the intensity of the inflammatory response in the subarachnoid space. Which, in turn, determine the degree of tissue damage. Bacterial products stimulate release of inflammatory mediators--cytokines from macrophages and other sources. Local production of cytokines from astrocytes and macroglial cells (macrophage equivalents in the CNS) is the first stage in development of the inflammatory response and tissue destruction. Cytokines induce damage of the CNS by attracting the inflammatory cells and by releasing superoxide anions inducing arachidonic acid metabolism and production of vasoactive metabolites of arachidonic acid which result in damage of blood-brain barrier, having, therefore, a direct cytotoxic effect. Consequences of these pathophysiologic disorders are cerebral oedema and elevated intracranial pressure. Current concepts of antiinflammatory therapy are, in the light of pathophysiological events in the CNS, directed to interruption of cytokine activation (steroids), prevention of production of vasoactive arachidonic acid metabolites (non-steroidal agents), and prevention of leukocyte transfer into the subarachnoid space (antileukocyte, anti-integrin antibodies).
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PMID:[Modern concepts of anti-inflammatory therapy in bacterial meningitis]. 134 Jun 49

For the past several years immunologists have been fascinated by a series of experiments showing that transforming growth factor beta (TGF beta) suppresses T- and B-lymphocyte growth as well as IgM and IgG production by B cells. Moreover, while exerting chemotactic activity on monocytes and inducing expression of interleukin-1 and interleukin-6 by these cells, TGF beta interferes with bacterially induced tumor necrosis factor alpha production, oxygen radical formation and the adhesiveness of granulocytes to endothelial cells. These mechanisms may provide the basis for the effect of TGF beta to prevent the microvascular changes associated with brain edema formation in bacterial meningitis. Given the potential of lymphocytes as well as macrophages to produce TGF beta 1, this cytokine may exert negative feedback signals on the immune response, provided the cytokine is processed from its latent form to the bioactive homodimer. Potent effects of TGF beta have been observed in experimental animals including the inhibition of the generation of virus-specific cytotoxic T cells and antiviral antibodies as well as the diminution of cellular infiltrates with decreased major histocompatibility complex class-II expression and CD8+ T cells in the tissue of virally infected animals. TGF beta may also be of importance in tumor immunology. By the production of bioactive TGF beta as detected in glioblastoma and acute T-cell leukemia, tumor cells may induce an immunodeficiency state and escape immune surveillance. In inflammation, monitoring of TGF beta in the tissue will bring light on the immune regulation in acute and chronic inflammatory diseases.
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PMID:Modulation of the immune response by transforming growth factor beta. 148 57

Macrophages and granulocytes seem to play a key role in the pathogenesis of bacterial meningitis. Transforming growth factor beta (TGF-beta) leads to macrophage deactivation, as well as to inhibition of cytokine production and of endothelial granulocyte adhesion. We have investigated the influence of TGF-beta on regional cerebral blood flow (rCBF), intracranial pressure (ICP), and brain edema formation during the early phase of experimental meningitis. Rats which were inoculated intracisternally with live pneumococci or with pneumococcal cell wall hydrolyzed by the M1 muramidase (PCW-M) developed an increase of rCBF and ICP within 4 h postintracisternal challenge. A single intraperitoneal injection of TGF-beta 2 but not of TGF-beta 2 vehicle-control prevented the changes of rCBF. Furthermore, TGF-beta 2 significantly reduced the increase of ICP in rats inoculated with PCW-M. Likewise, the elevation of brain water content after intracisternal injection of pneumococci or PCW-M was blocked by pretreatment of rats with TGF-beta 2. TGF-beta 1 exhibited similar inhibitory effects in PCW-M-injected rats. The beneficial effects of TGF-beta 2 on the initial phase after pneumococcal inoculation seem to be tumor necrosis factor alpha- (TNF-alpha) independent since (a) intracisternal or intraperitoneal injection of neutralizing anti-TNF-alpha antibodies did not significantly influence rCBF, ICP, and brain water content in PCW-M-induced meningitis; and (b) TNF-alpha was only occasionally detected at low levels in cerebrospinal fluid at 4 h after PCW-M application.
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PMID:Transforming growth factor beta 2 inhibits cerebrovascular changes and brain edema formation in the tumor necrosis factor alpha-independent early phase of experimental pneumococcal meningitis. 161 60

Interleukin-6 (IL-6) is multipotent cytokine that acts in a network of factors directing the inflammatory reaction of purulent bacterial meningitis (PBM). However, little is known about the role of IL-6 in aseptic or "viral" meningitis (AM). IL-6 was assayed by RIA in cerebrospinal fluid (CSF) and serum samples obtained from patients with AM (n = 65), PBM (n = 8), and lymphocytic bacterial meningitis (LBM, n = 11). Of patients with AM, 89% had detectable IL-6 in CSF, with high IL-6 titers (median, 2160 pg/mL; 95% confidence interval [CI], 1320-2540 pg/mL) compared with 100% in patients with PBM (median, 6575 pg/mL; 95% CI, 450-32,000 pg/mL) and 90.9% in patients with LBM (median, 875 pg/mL; 95% CI, 150-2180 pg/mL). There was a highly symmetrical correlation between IL-6 and the percentage of polymorphonuclear cells in CSF of patients with PBM (r = .97, P = .01) and AM (r = .49, P = .002). In conclusion, this study shows evidence that IL-6 is released into the meningeal space in aseptic meningitis and is correlated with the local acute inflammatory response.
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PMID:High concentrations of intrathecal interleukin-6 in human bacterial and nonbacterial meningitis. 163 15

In bacterial meningitis, LPS induces production in cerebrospinal fluid of the cytokines IL-1 beta and tumor necrosis factor alpha (TNF alpha), which are the principle mediators of meningeal inflammation. IL-1 beta and TNF alpha induce fever, and elevated temperature may affect cytokine expression. Dexamethasone treatment improves outcome in bacterial meningitis possibly by inhibiting IL-1 beta and TNF alpha. In this report, the effects of elevated temperature and dexamethasone on LPS-stimulated IL-1 beta and TNF alpha mRNA gene expression and protein synthesis were studied in human astrocytoma cell lines and primary cultures of human fetal astrocytes. Cells cultured at 40 degrees C exhibited smaller peaks of IL-1 beta and TNF alpha transcription and protein synthesis compared with cells cultured at 37 degrees C. The addition of dexamethasone before, during, or after exposure of the cells to LPS resulted in temperature-dependent inhibition of IL-1 beta transcription and protein synthesis. The most extensive inhibition occurred in pretreated cells cultured at 37 degrees C. Cotreatment with LPS and dexamethasone also inhibited TNF alpha mRNA transcription at both temperatures. The effects of another antiinflammatory agent, indomethacin, on LPS induction of IL-1 beta and TNF alpha mRNA were temperature and cell line dependent. These findings provide a possible explanation for the efficacy of dexamethasone treatment of bacterial meningitis and support the proposal that fever may be beneficial to the host in this disease.
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PMID:Temperature-dependent modulation of lipopolysaccharide-induced interleukin-1 beta and tumor necrosis factor alpha expression in cultured human astroglial cells by dexamethasone and indomethacin. 202 38

Although antibiotics have reduced mortality, the most recent clinical trials in sepsis and meningitis have been directed at the host inflammatory response in an attempt to improve outcome. Endotoxin, cell wall constituents and toxins are potent inducers of small molecular weight proteins (cytokines) from a variety of host cells. Several lines of investigation have implicated tumor necrosis factor-alpha (TNF-alpha) as a cytokine mediator of sepsis and septic shock. A recent study has been able to measure plasma TNF-alpha concentrations in patients with meningococcemia and demonstrated a correlation with prognostic groups related to mortality. Therefore, TNF-alpha, probably through its effects on other mediators, has an effect in sepsis. New speculation regarding morbidity in bacterial meningitis focuses on cytokine activity in the central nervous system. Cerebrospinal fluid (CSF) from experimental animals with meningitis contains increased amounts of interleukin-1 beta (IL-1 beta) and TNF alpha. These IL-1 beta levels correlated directly with duration of fever and neurological sequelae. Children with Haemophilus influenzae, type b meningitis treated with dexamethasone had significantly reduced levels of CSF IL-1 beta compared to placebo-treated controls.
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PMID:The immunology of sepsis and meningitis--cytokine biology. 209 Dec 57

Pentoxifylline has been shown to decrease endotoxin-induced tumor necrosis factor alpha production and reverse the inflammatory actions of interleukin-1 (IL-1) and tumor necrosis factor on leukocyte function. Because of the potential role of this cytokine-leukocyte interaction in the pathogenesis of bacterial meningitis, we investigated the ability of pentoxifylline to modulate meningeal inflammation in the rabbit meningitis model. Pentoxifylline treatment (initially an intravenous injection of 20 mg/kg followed by 6 mg/kg per h) started 20 min before intracisternal injection of 20 ng of Haemophilus influenzae type b lipooligosaccharide (endotoxin) reduced significantly concentrations in cerebrospinal fluid of leukocytes (P less than 0.0001), protein (P less than 0.001), and lactate (P less than 0.001) during the 9-h infusion compared with values in intravenous-saline-treated rabbits. When pentoxifylline was given 1 h after H. influenzae type b endotoxin, the mean peak lactate and leukocyte concentrations in cerebrospinal fluid were significantly lower than those in control animals. Pentoxifylline also significantly decreased lactate and protein concentrations (P less than 0.05) and tended to diminish leukocyte counts (P = 0.08) compared with results in control animals after antibiotic-induced release of endotoxin in animals with H. influenzae meningitis. In this regard, dexamethasone was superior to pentoxifylline and no synergism was observed when the drugs were combined. Additionally, pentoxifylline attenuated meningeal inflammatory changes induced by intracisternal inoculation of 10 ng of rabbit recombinant IL-1 beta compared with results in either dexamethasone- or saline-treated animals. We conclude that pentoxifylline is effective in this animal model in modulating the meningeal inflammatory response following intracisternal inoculation of H. influenzae type b endotoxin or organisms or rabbit recombinant IL-1beta.
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PMID:Pentoxifylline modulates meningeal inflammation in experimental bacterial meningitis. 236 Aug 22

Since interleukin-10 (IL-10) controls the production of tumor necrosis factor alpha (TNF-alpha) and this latter cytokine has a deleterious effect on neuronal cells, we determined the levels of both cytokines in cerebrospinal fluid (CSF) from children with bacterial meningitis. High levels of IL-10 (1,164 pg/mL) and TNF-alpha (3,158 pg/mL) were detected in CSF from 10 children with meningitis, but these cytokines were not detectable in CSF from 12 controls. In vitro neutralization of IL-10 demonstrated that endogenously formed IL-10 is important for limiting the production of TNF-alpha by leukocytes. We assume that IL-10 in CSF will decrease the inflammatory reaction associated with meningitis and will result in the development of fewer sequelae because of its inhibitory effect on the production of TNF-alpha.
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PMID:High levels of interleukin 10 and tumor necrosis factor alpha in cerebrospinal fluid during the onset of bacterial meningitis. 872 71

Dexamethasone inhibits lipopolysaccharide-induced synthesis of the cytokine, interleukin-1 beta, in cerebrospinal fluid of patients with bacterial meningitis. Along with monocytes, astrocytes are capable of producing lipopolysaccharide-induced interleukin-1 beta in the central nervous system. The objective of this study was to investigate the induction of interleukin-1 beta mRNA by lipopolysaccharide, and the inhibition of this process by dexamethasone, in human astrocytes using the astrocytoma cell line U-373MG as a model system. Dexamethasone-mediated inhibition of induction of interleukin-1 beta mRNA by lipopolysaccharide required a functional glucocorticoid receptor. In contrast to monocytes, lipopolysaccharide induction of interleukin-1 beta mRNA in U-373MG cells required de novo protein synthesis. Dexamethasone also had no effect on lipopolysaccharide-induced interleukin-1 beta transcriptional initiation in U-373MG cells. U-373MG cells were similar to monocytes, however, with respect to the ability of dexamethasone to decrease interleukin-1 beta mRNA half-life. These findings demonstrate that the mode of lipopolysaccharide induction of interleukin-1 beta mRNA, and inhibition of this process by dexamethasone, can vary in different cell types.
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PMID:Protein synthesis-dependent induction of interleukin-1 beta by lipopolysaccharide is inhibited by dexamethasone via mRNA destabilization in human astroglial cells. 759 67

Inflammatory response plays an important role in the pathogenesis of cerebral injury in bacterial meningitis. In this study, we evaluated the cytokine levels of interleukin 1-beta (IL1 beta), tumour necrosis factor alpha (TNF alpha) and interleukin 6 (IL6) in the cerebrospinal fluid (CSF), and determined their correlation with acute clinical complications and with changes in CSF biochemistry. Interleukin 6, TNF alpha and IL1 beta were present in 9/9, 3/9 and 4/9 patients, respectively. The CSFs with detectable TNF alpha or IL1 beta had higher levels of IL6 (p < 0.02), protein (NS) and lower glucose levels (p < 0.02), compared with those in which TNF alpha and IL1 beta were absent. Tumour necrosis factor alpha and IL1 beta levels also correlated with the presence of prolonged fever, fits, spasticity and death (logTNF alpha: r = 0.70, p < 0.05; logIL1 beta: r = 0.62, p = 0.08). The cytokine levels reflect the degree of inflammatory response and are positively correlated with the severity of acute clinical complications. Modulation of this inflammatory response in bacterial meningitis may improve its morbidity and mortality.
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PMID:Inflammatory response in bacterial meningitis: cytokine levels in the cerebrospinal fluid. 759 38


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