UMLS:C0026936 - FACTA Search

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Query: UMLS:C0026936 (Mycoplasma)
14,761 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We determined serum levels of alpha 1-antitrypsin, alpha 1-acid glycoprotein, ceruloplasmin, haptoglobin, alpha 2-HS glycoprotein, C3 and fibronectin in 22 patients with acute pneumonia, 10 patients with mycoplasma pneumonia and 8 patients with exacerbation of chronic bronchitis at both acute and convalescent phases to clarify whether levels of these proteins change with inflammation. Serum levels of alpha 1-antitrypsin, alpha 1-acid glycoprotein, ceruloplasmin, haptoglobin and C3 in the patients in the acute phase were significantly higher than that in the patients in the convalescent phase. The serum level of fibronectin in the patients in the acute phase was significantly lower than that in the patients in convalescent phase. The serum level of alpha 2HS glycoprotein remained unchanged.
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PMID:[Changes in various serum protein levels between acute and convalescent phases in patients with respiratory infections]. 169 92

The current state of knowledge of lung defenses has been reviewed. First, mechanical factors such as aerodynamic filtration and mucociliary transport were considered. Then, in general terms, the contributions of alveolar macrophages, neutrophils, lymphocytes, and immunoglobulins, and the roles of complement, antiproteases, lysozyme, and fibronectin were examined. Interactions between these components may regulate their effect. Finally, the responses to five specific microorganisms were reviewed to illustrate different aspects of the lung's defenses. Streptococcus pneumoniae was selected as a representative extracellular bacterial pathogen, Mycobacterium tuberculosis as an intracellular bacterial pathogen, Mycoplasma pneumoniae because it elicits significant humoral and cell-mediated immunity, respiratory syncytial virus as an example of a local viral pathogen, and measles as a viral pathogen that causes generalized disease. It was shown that these responses may not always be beneficial for the host. For each of the five infections, recommendations for improving the outcome were made.
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PMID:Lung defenses against infection: a clinical correlation. 634 46

Attachment of Mycoplasma pneumoniae to glass is reduced in the presence of protein, and fatty acid-free bovine serum albumin is more effective than Cohn fraction V. Cultures in the early log phase (pH 7.45 to 7.25) and cultures in the stationary or decline phase (pH 6.9 to 6.4) were more sensitive to this inhibiting effect of protein-containing buffer. Treatment of the glass surface with bovine serum albumin, concanavalin A, or polylysine reduced attachment of the mycoplasma cells. The inhibiting effects of both proteins in buffer or on the glass surface could be overcome by the addition of glucose. Modification of the mycoplasma surface charge by blocking of carboxyl groups or neutralization of ionic lipids by tetracaine altered the attachment level, whereas fibronectin and its corresponding antiserum were without effect. The results suggest that the mycoplasma interaction with glass is a complex multifactorial process. In protein-free buffer both hydrophobic and electrostatic forces are involved; in protein-containing fluid, other factors seem to be involved. The energy required for this type of attachment could be necessary for maintenance of cell shape or synthesis of polypeptides.
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PMID:Influence of cell shape and surface charge on attachment of Mycoplasma pneumoniae to glass surfaces. 640 Dec 75

Mycoplasma penetrans adhered to cultured human cells, forming clusters that localized to specific areas of the host cell surface. Adherence and cluster formation were inhibited by anti-M. penetrans antibodies, suggesting the involvement of specific adhesin-receptor interactions. Ultrastructural studies showed that after 2 h of infection, mycoplasmas attach to and penetrate the host cell surface. M. penetrans bound selectively to immobilized fibronectin, an interaction which was not inhibited by a 70-kDa fragment containing a heparin-gelatin-binding domain of fibronectin, other matrix glycoproteins, or an RGD tripeptide, suggesting the recognition of other specific binding sites on the fibronectin molecule. A ca. 65-kDa fibronectin-binding protein of M. penetrans was eluted following Sepharose-fibronectin affinity chromatography. Confocal, light, and immunofluorescence microscopy demonstrated that the interaction of M. penetrans with target cells triggers a signal that causes recruitment of several cytoskeletal components, including tubulin and alpha-actinin, and aggregation of phosphorylated proteins. Detergent-soluble mycoplasma proteins with apparent molecular masses of 18, 28, 32, 36, 39, and 41 kDa selectively bound to glutaraldehyde-fixed HEp-2 cells. Our findings offer new insights into understanding the interaction of this human mycoplasma with host target cells.
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PMID:Adherence, fibronectin binding, and induction of cytoskeleton reorganization in cultured human cells by Mycoplasma penetrans. 855 40

The interactions between pathogenic bacteria and extracellular matrix (ECM) components markedly influence the initiation and establishment of infection. We have identified two surface proteins of virulent Mycoplasma pneumoniae with molecular masses of 45 and 30 kDa that bind to the ECM constituent, fibronectin (Fn). These Fn-binding proteins (FnBPs) were purified to near homogeneity using Fn-coupled Sepharose 4B-affinity column chromatography, and amino acid sequence analysis of the 45 and the 30 kDa proteins identified them as elongation factor Tu (EF-Tu) and pyruvate dehydrogenase E1 beta subunit (PDH-B) respectively. The genes for EF-Tu and PDH-B were cloned, and the entire EF-Tu gene and NH2-terminus of PDH-B (NPDH (pyruvate dehydrogenase E1 beta subunit from amino acid 1-244)-B) gene were overexpressed in Escherichia coli. The recombinant proteins, rEF-Tu and rNPDH-B, were purified to homogeneity by His-tag affinity column chromatography and used to immunize rabbits. Purified rEF-Tu and rNPDH-B bound to Fn using a ligand immunoblot assay and ELISA. Immunogold electron microscopy with polyclonal antibodies reactive against rEF-Tu (antirEF-Tu) and rNPDH-B (antirNPDH-B) and whole cell radioimmunoprecipitation (WCRIP) revealed the surface location of these proteins. Adherence of viable M. pneumoniae to immobilized Fn was inhibited by antirEF-Tu and antirNPDH-B antisera in a dose-dependent and cumulative manner. These results demonstrate that M. pneumoniae EF-Tu and PDH-B, in addition to their major cytoplasmic biosynthetic and metabolic roles, can be surface translocated, which confers additional important biological functions.
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PMID:Elongation factor Tu and E1 beta subunit of pyruvate dehydrogenase complex act as fibronectin binding proteins in Mycoplasma pneumoniae. 1242 10

Mycoplasma pneumoniae infections represent a major primary cause of human respiratory diseases, exacerbate other respiratory disorders, and are associated with extrapulmonary pathologies. Cytadherence is a critical step in mycoplasma colonization, aided by a network of mycoplasma adhesins and cytadherence accessory proteins which mediate binding to host cell receptors. Furthermore, the respiratory mucosa is enriched with extracellular matrix components, including surfactant proteins, fibronectin, and mucin, which provide additional in vivo targets for mycoplasma parasitism. In this study we describe interactions between M. pneumoniae and human surfactant protein-A (hSP-A). Initially, we found that viable M. pneumoniae cells bound to immobilized hSP-A in a dose- and calcium (Ca(2+))-dependent manner. Mild trypsin treatment of intact mycoplasmas reduced binding markedly (80 to 90%) implicating a surface-associated mycoplasma protein(s). Using hSP-A-coupled Sepharose affinity chromatography and polyacrylamide gel electrophoresis, we identified a 65-kDa hSP-A binding protein of M. pneumoniae. The presence of Ca(2+) enhanced binding of the 65-kDa protein to hSP-A, which was reduced by the divalent cation-chelating agent, EDTA. The 65-kDa hSP-A binding protein of M. pneumoniae was identified by sequence analysis as a novel protein (MPN372) possessing a putative S1-like subunit of pertussis toxin at the amino terminus (amino acids 1 to 226), with the remaining amino acids (227 to 591) exhibiting no homology with other subunits of pertussis toxin, other known toxins, or any reported proteins. Recombinant MPN372 (MPN372) bound to hSP-A in a dose-dependent manner, which was markedly reduced by preincubation with mouse recombinant MPN372 antisera. Also, adherence of viable M. pneumoniae cells to hSP-A was inhibited by recombinant MPN372 antisera, demonstrating that MPN372, a previously designated hypothetical protein, is surface exposed and mediates mycoplasma attachment to hSP-A.
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PMID:Identification and characterization of human surfactant protein A binding protein of Mycoplasma pneumoniae. 1584 87

We have determined that virulent Mycoplasma gallisepticum strain Rlow is capable of binding the extracellular matrix protein fibronectin. Fibronectin was found to be present in M. gallisepticum Rlow protein extracts by Western blotting and peptide sequencing. Mycoplasma gallisepticum Rhigh, the attenuated, high-passage derivative of Rlow, is deficient in this ability. MGA_1199, the M. gallisepticum homologue of the cytadherence-associated protein P65 from Mycoplasma pneumoniae, and MGA_0928, the M. gallisepticum homologue of the M. pneumoniae cytoskeletal protein HMW3, were identified as fibronectin-binding proteins. Peptides from the regions of MGA_1199 and MGA_0928 exhibiting the highest degree of homology with known fibronectin-binding proteins were shown to bind the gelatin/heparin-binding domain of fibronectin. MGA_1199 and MGA_0928 were shown to be absent and aberrant, respectively, in Rhigh, explaining its lack of fibronectin-binding capability. Consistent with its M. pneumoniae counterpart, MGA_1199 (renamed PlpA) was demonstrated to be surface exposed, despite a lack of classical membrane-spanning domains. Due to its demonstrated topology and the strength of interaction between its binding peptide and fibronectin, we propose that PlpA functions as a fibronectin-binding protein in vivo and may possess atypical transmembrane domains.
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PMID:Identification of fibronectin-binding proteins in Mycoplasma gallisepticum strain R. 1649 51

In the present study, we show that intact Mycoplasma fermentans cells have a wealth of adhesive interactions with components of the extracellular matrix. Mycoplasma fermentans intensively bind plasminogen, and to a lesser extent, fibronectin, heparin, and laminin. The binding of collagen type III, IV, or V was low. The binding of plasminogen, collagen type III, or collagen type V markedly enhanced the adherence of M. fermentans to HeLa cells, whereas the binding of fibronectin, heparin, laminin, or collagen IV induced only a small effect on mycoplasma adherence. Utilizing plasminogen-treated M. fermentans preparations, we detected microorganisms within host HeLa cells by the gentamicin protection assay or by confocal laser scanning microscopy of immunofluorescent preparations. However, no intracellular M. fermentans was detected when M. fermentans preparations treated with fibronectin, heparin, laminin, or collagen type III, IV, or V were utilized.
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PMID:Binding of host extracellular matrix proteins to Mycoplasma fermentans and its effect on adherence to, and invasion of HeLa cells. 1723 26

Mycoplasma pneumoniae is a bacterial pathogen of the human respiratory tract that causes a wide range of airway diseases as well as extrapulmonary symptoms. It possesses a distinct, differentiated terminal structure, termed the attachment organelle, that mediates adherence to the host respiratory epithelium. Previously, we reported that surface-associated M. pneumoniae elongation factor Tu (EF-Tu, also called MPN665) serves as a fibronectin (Fn)-binding protein, facilitating interactions between mycoplasmas and extracellular matrix. In the present study, we determined that binding of M. pneumoniae EF-Tu to Fn is primarily mediated by the EF-Tu carboxyl region. A 179-amino-acid region spanning the carboxyl terminus (designated EC; amino acids 192 to 394) binds Fn in a dose-dependent manner. Further analysis of carboxyl constructs (ED3 and ED4) and their deletion truncations (ED3.1, ED3.2, and ED4.1) revealed that the carboxyl region possessed two distinct sites with different Fn-binding efficiencies. Immunogold electron microscopy using antibodies raised against recombinant ED3 and ED4 demonstrated the surface accessibility of the EF-Tu carboxyl region. Competitive binding assays using intact radiolabeled mycoplasmas and purified recombinant ED3 and ED4 proteins, along with antibody blocking assays, reinforced the role of the surface-exposed EF-Tu carboxyl region in Fn binding. Alkali and high-salt treatment of mycoplasma membranes and Triton X-114-partitioned mycoplasma fractions confirmed the stable association of EF-Tu within the mycoplasma membrane. These observations highlight the unique, multifaceted, and unpredictable role of the classically defined cytoplasmic protein EF-Tu relative to cellular function, compartmentalization, and topography.
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PMID:The surface-exposed carboxyl region of Mycoplasma pneumoniae elongation factor Tu interacts with fibronectin. 1841 Dec 96

Mycoplasma pneumoniae and Mycoplasma genitalium are closely related organisms that cause distinct clinical manifestations and possess different tissue predilections despite their high degree of genome homology. We reported earlier that surface-localized M. pneumoniae elongation factor Tu (EF-Tu(Mp)) mediates binding to the extracellular matrix component fibronectin (Fn) through the carboxyl region of EF-Tu. In this study, we demonstrate that surface-associated M. genitalium EF-Tu (EF-Tu(Mg)), in spite of sharing 96% identity with EF-Tu(Mp), does not bind Fn. We utilized this finding to identify the essential amino acids of EF-Tu(Mp) that mediate Fn interactions by generating modified recombinant EF-Tu proteins with amino acid changes corresponding to those of EF-Tu(Mg). Amino acid changes in serine 343, proline 345, and threonine 357 were sufficient to significantly reduce the Fn binding of EF-Tu(Mp). Synthetic peptides corresponding to this region of EF-Tu(Mp) (EF-Tu(Mp) 340-358) blocked both recombinant EF-Tu(Mp) and radiolabeled M. pneumoniae cell binding to Fn. In contrast, EF-Tu(Mg) 340-358 peptides exhibited minimal blocking activity, reinforcing the specificity of EF-Tu-Fn interactions as mediators of microbial colonization and tissue tropism.
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PMID:Amino acid changes in elongation factor Tu of Mycoplasma pneumoniae and Mycoplasma genitalium influence fibronectin binding. 1954 94

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