Gene/Protein Disease Symptom Drug Enzyme Compound
Pivot Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound   Target Concepts: Gene/Protein Disease Symptom Drug Enzyme Compound

---

Query: UMLS:C0085437 (bacterial meningitis)
4,038 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Albumin, IgG, IgA, IgM, transferrin, and alpha 1-antitrypsin were determined quantitatively in the cerebrospinal fluid (CSF) of 44 healthy children and 37 pediatric patients with central nervous system diseases. Neither IgA nor IgM were found in the CSF of normal children, but they were present in cases of purulent and non-bacterial meningitis. In cases of encephalitis all proteins studied were increased except IgA and IgM, which could not be demonstrated. On the basis of the results it may be concluded that the increase of IgG in the CSF in bacterial and a bacterial meningitis is due to an increased permeability of the blood-CSF barrier. Except in cases with ependymitis, IgG is produced only in small amounts in or near the CSF spaces even in the presence of inflammation of the meninges. The quantitative determination of IgG, IgA, and IgM in case of increased CSF protein content may facilitate the differential diagnosis between purulent and acute viral meningitis and encephalitis.
...
PMID:[The quantitative determination of the individual CSF proteins in the diagnosis of inflammatory diseases of the CNS in children (author's transl)]. 108 15

Neisseria meningitidis, a causative agent of bacterial meningitis and septicemia, obtains transferrin-bound iron by expressing two outer membrane-located transferrin-binding proteins, TbpA and TbpB. A novel system was developed to investigate the interaction between Tbps and human transferrin. Copurified TbpA-TbpB, recombined TbpA-TbpB, and individual TbpA and TbpB were reconstituted into liposomes and fused onto an HPA chip (BIAcore). All preparations formed stable monolayers, which, with the exception of TbpB, could be regenerated by removing bound transferrin. The ligand binding properties of these monolayers were characterized with surface plasmon resonance and shown to be specific for human transferrin. Kinetic data for diferric human transferrin binding showed that recombined TbpA-TbpB had K(a) and K(d) values similar to those of copurified TbpA-TbpB. Individual TbpA and TbpB also displayed K(a) values similar to those of copurified TbpA-TbpB, but their K(d) values were one order of magnitude higher. Chemical cross-linking studies revealed that TbpA and TbpB, in the absence of human transferrin, formed large complexes with TbpA as the predominant species. Upon human transferrin binding, a complex was formed with a molecular mass corresponding to that of a TbpB-human transferrin heterodimer as well as a higher-molecular-mass complex of this heterodimer cross-linked to TbpA. This indicates that TbpA and TbpB form a functional meningococcal receptor complex in which there is cooperativity in the human transferrin binding kinetics. However, iron loss from the diferric human transferrin-TbpA-TbpB complex was not greater than that from human transferrin alone, suggesting that additional meningococcal transport components are involved in the process of iron removal.
...
PMID:Meningococcal transferrin-binding proteins A and B show cooperation in their binding kinetics for human transferrin. 1566 36

Neisseria meningitidis, a causative agent of bacterial meningitis, obtains transferrin-bound iron by expressing two outer membrane located transferrin-binding proteins, TbpA and TbpB. TbpA is thought to be an integral outer membrane pore that facilitates iron uptake. Evidence suggests that TbpA is a useful antigen for inclusion in a vaccine effective against meningococcal disease, hence the identification of regions involved in ligand binding is of paramount importance to design strategies to block uptake of iron. The protein shares sequence and functional similarities to the Escherichia coli siderophore receptors FepA and FhuA, whose structures have been determined. These receptors are composed of two domains, a 22-stranded beta-barrel and an N-terminal plug region that sits within the barrel and occludes the transmembrane pore. A three-dimensional TbpA model was constructed using FepA and FhuA structural templates, hydrophobicity analysis and homology modelling. TbpA was found to possess a similar architecture to the siderophore receptors. In addition to providing insights into the highly immunogenic nature of TbpA and allowing the prediction of potentially important ligand-binding epitopes, the model also reveals a narrow channel through its entire length. The relevance of this channel and the spatial arrangement of external loops, to the mechanism of iron translocation employed by TbpA is discussed.
...
PMID:Homology modelling of transferrin-binding protein A from Neisseria meningitidis. 1582 Sep 75

Cerebrospinal fluid leakage is a rare but critical condition with a substantial risk of intracranial infection, therefore its diagnosis and treatment is of major importance. CSF leakage diagnostic can be a challenging problem. Nephelometric measurement of beta-trace protein in the liquorrhoea is a non-invasive and fast method that can be used for CSF leakage diagnosis. It should kept in mind, however, that the cut-off of 1.1 mg/L is not suitable for patients with bacterial meningitis and those with a reduced glomerular filtration rate. Complementary use of beta-trace protein assay and beta2-transferrin detection is therefore recommended.
...
PMID:[The role of biology in the diagnosis of cerebrospinal fluid leaks]. 1929 88

Neisseria are obligate human pathogens causing bacterial meningitis, septicaemia and gonorrhoea. Neisseria require iron for survival and can extract it directly from human transferrin for transport across the outer membrane. The transport system consists of TbpA, an integral outer membrane protein, and TbpB, a co-receptor attached to the cell surface; both proteins are potentially important vaccine and therapeutic targets. Two key questions driving Neisseria research are how human transferrin is specifically targeted, and how the bacteria liberate iron from transferrin at neutral pH. To address these questions, we solved crystal structures of the TbpA-transferrin complex and of the corresponding co-receptor TbpB. We characterized the TbpB-transferrin complex by small-angle X-ray scattering and the TbpA-TbpB-transferrin complex by electron microscopy. Our studies provide a rational basis for the specificity of TbpA for human transferrin, show how TbpA promotes iron release from transferrin, and elucidate how TbpB facilitates this process.
...
PMID:Structural basis for iron piracy by pathogenic Neisseria. 2232 95

Neisseria meningitidis, the causative agent of bacterial meningitis, acquires the essential element iron from the host glycoprotein transferrin during infection through a surface transferrin receptor system composed of proteins TbpA and TbpB. Here we present the crystal structures of TbpB from N. meningitidis in its apo form and in complex with human transferrin. The structure reveals how TbpB sequesters and initiates iron release from human transferrin.
...
PMID:The structural basis of transferrin sequestration by transferrin-binding protein B. 2234 19

Streptococcus agalactiae is a rare cause of acute bacterial meningitis. We report the case of a middle age non-pregnant female patient, with no comorbitidies, who was hospitalized with acute meningitis. The pathogen was identified both in blood and CSF. She recovered uneventfully with ceftriaxone and dexamethasone. A CSF leak was suspected by previous history of unilateral watery rhinorrhea, that was demonstrated with a high resolution paranasal sinus CT and beta-2 transferrin analysis of the nasal fluid. Vulvovaginitis was also diagnosed after admission, but no cultures were obtained. Streptococcus agalactiae is an infrequent cause of bacterial meningitis that should promote the search of anatomical abnormalities or comorbidities in non-pregnant adults and beyond newborn period.
...
PMID:[Acute bacterial meningitis by Streptococcus agalactiae in a non pregnant woman associated to a cerebrospinal fluid leak: a case report]. 2452 13

Neisseria meningitidis, a major cause of bacterial meningitis and septicaemia, secretes multiple virulence factors, including the adhesion and penetration protein (App) and meningococcal serine protease A (MspA). Both are conserved, immunogenic, type Va autotransporters harbouring S6-family serine endopeptidase domains. Previous work suggested that both could mediate adherence to human cells, but their precise contribution to meningococcal pathogenesis was unclear. Here, we confirm that App and MspA are in vivo virulence factors since human CD46-expressing transgenic mice infected with meningococcal mutants lacking App, MspA or both had improved survival rates compared with mice infected with wild type. Confocal imaging showed that App and MspA were internalized by human cells and trafficked to the nucleus. Cross-linking and enzyme-linked immuno assay (ELISA) confirmed that mannose receptor (MR), transferrin receptor 1 (TfR1) and histones interact with MspA and App. Dendritic cell (DC) uptake could be blocked using mannan and transferrin, the specific physiological ligands for MR and TfR1, whereas in vitro clipping assays confirmed the ability of both proteins to proteolytically cleave the core histone H3. Finally, we show that App and MspA induce a dose-dependent increase in DC death via caspase-dependent apoptosis. Our data provide novel insights into the roles of App and MspA in meningococcal infection.
...
PMID:Nuclear trafficking, histone cleavage and induction of apoptosis by the meningococcal App and MspA autotransporters. 2560 Jan 71

The pathogenic Neisseria species are human-adapted pathogens that cause quite distinct diseases. Neisseria gonorrhoeae causes the common sexually transmitted infection gonorrhea, while Neisseria meningitidis causes a potentially lethal form of bacterial meningitis. During infection, both pathogens deploy a number of virulence factors in order to thrive in the host. The focus of this review is on the outer membrane transport systems that enable the Neisseriae to utilize host-specific nutrients, including metal-binding proteins such as transferrin and calprotectin. Because acquisition of these critical metals is essential for growth and survival, understanding the structures of receptor-ligand complexes may be an important step in developing preventative or therapeutic strategies focused on thwarting these pathogens. Much can also be learned by comparing structures with antigenic diversity among the transporter sequences, as conserved functional domains in these essential transporters could represent the pathogens' "Achilles heel." Toward this goal, we present known or modeled structures for the transport systems produced by the pathogenic Neisseria species, overlapped with sequence diversity derived by comparing hundreds of neisserial protein sequences. Given the concerning increase in N. gonorrhoeae incidence and antibiotic resistance, these outer membrane transport systems appear to be excellent targets for new therapies and preventative vaccines.
...
PMID:Structural Basis for Evasion of Nutritional Immunity by the Pathogenic Neisseriae. 3199 68

---