UMLS:C0272170 - FACTA Search

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Query: UMLS:C0272170 (SDS)
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Monocyte interaction with fibronectin (Fn) involves specific cell surface receptors and results in cell attachment and differentiation. We have studied the regulation of these receptors using the promonocytic cell line U937 and its PMA-induced differentiation as a model. We recently reported that U937 cells interact with two sites in Fn, RGD and CS-1, via two independent receptors (O. C. Ferreira, A. Garcia-Pardo, and C. Bianco (1990) J. Exp. Med. 171, 351). In this study we have determined the effects of PMA on the interaction of U937 cells with both sites in Fn. PMA-U937 cells showed an enhanced attachment to Fn and to an RGD-containing 80-kDa Fn fragment. This enhancement paralleled a two- to threefold increase in the surface expression of the RGD-dependent receptor alpha 5 beta 1. An anti-alpha 5 beta 1 mAb completely inhibited cell adhesion to Fn and to the 80-kDa fragment. alpha 5 beta 1 receptors from untreated and PMA-treated U937 cells were isolated on 80-kDa-Sepharose columns and shown to contain a similar complex of 152/125-kDa proteins, although proteins from PMA-treated cells had slightly faster mobility on SDS-gels. In contrast, the total number of PMA-U937 cells adhering to a 38-kDa Fn fragment (containing the CS-1 site) was lower when compared to that of untreated cells. This decrease was accompanied by a 50% loss of cell surface alpha 4 beta 1, the specific receptor for CS-1. Our results indicate that differentiation of U937 cells enhances adhesion to Fn primarily by up-regulating the alpha 5 beta 1 Fn receptor. PMA also induces a down-regulation of alpha 4 beta 1, suggesting that these two integrins play different roles during monocyte differentiation.
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PMID:Phorbol ester-induced differentiation of U937 cells enhances attachment to fibronectin and distinctly modulates the alpha 5 beta 1 and alpha 4 beta 1 fibronectin receptors. 182 97

Ependymin, a glycoprotein of the brain ECF, has been implicated in the neurochemistry of memory and neuronal regeneration. Three behavioral experiments (swimming with a float, avoidance conditioning, and classical conditioning) in the goldfish and one in the mouse (T-maze learning) indicate that ependymin has a role in the synaptic changes that take place in the consolidation step of memory formation and the activity-dependent phase of sharpening of goldfish retinotectal connections during neuronal regeneration. The ECF concentration of the protein was found to decrease after the goldfish learned to associate a light stimulus (CS) with the subsequent arrival of a shock (US): paired CS-US gave changes whereas an unpaired presentation of CS-US gave no changes relative to the unstimulated controls. Ependymin is present in ECF as a mixture of three disulfide-linked dimers of two acidic (alpha and beta) polypeptide chains (37 kDa and 31 kDa). Upon removal of its N-linked glycan fragment by N-glycosidase F, the beta chain yields gamma-ependymin (26 kDa). Determinations of the amino acid sequence of gamma-ependymin indicate that it is a unique protein with no long sequence homologies to any known polypeptide. There are, however, small segments (5-7 amino acids long) with homologies to fibronectin, laminin, and tubulin. Ependymin has the capacity to polymerize into FIP (after activation by phosphorylation) in response to events that deplete ECF calcium. FIP is insoluble in 2% SDS in 6 M urea, 10 mM Ca2+Ac2, 100% acetic acid, chloroform/methanol (2/1), saturated KCNS, and even 100% trifluoroacetic acid. FIP was found to be present in goldfish brain and to be formed as a labeled product in vivo. Ependymin's FIP-forming property was used to propose a molecular hypothesis for generating synaptic changes in response to local extracellular depletions of calcium at sites of "associating inputs." The model assumes that, following NMDA receptor stimulation, the translocated PKC that is generated activates extracellular ependymin by converting it to its phosphorylated form using presynaptically released ATP. The hypothesis was tested in studies of LTP of rat hippocampal slices at CA1. After LTP, new sites that stained with antisera to ependymin, visible at 100x, were obtained in its potentiated radiatum in the CA1 region but not in the unpotentiated CA3. Electron microscopic studies showed that the horseradish peroxidase reaction product obtained was localized at synaptic clefts and postsynaptic regions. The results suggest that FIP may be formed at extracellular and postsynaptic loci where multiple associating inputs interact at CA1.
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PMID:Ependymin, a brain extracellular glycoprotein, and CNS plasticity. 183 64

Exposure of purified human plasma fibronectin to the myeloperoxidase-H2O2-Cl- system of neutrophils or to reagent HOCl resulted in extensive changes to its primary and tertiary structures. When 1.14 microM fibronectin was exposed to 50-400 microM HOCl or 50-400 microM H2O2 plus myeloperoxidase and Cl-, there was progressive loss of tryptophan fluorescence and cysteines, and an increase in bityrosine fluorescence and carbonyl content. Analysis by SDS-PAGE indicated extensive crosslinking of the fibronectin, the crosslinks being stable under reducing conditions. The coincident increase of bityrosine fluorescence suggests that crosslinking may be largely due to intermolecular bityrosines rather than disulfides. All changes observed with the myeloperoxidase system were inhibited by azide or methionine, and were dependent upon the presence of chloride, indicating that they are mediated by HOCl. The reaction between HOCl and fibronectin resulted in the formation of long-lived chloramines. Exposure to increasing amounts of oxidant resulted in an increase in the susceptibility of fibronectin to proteolytic attack by purified neutrophil elastase. Analysis by SDS-PAGE showed a different fragmentation pattern for oxidant-treated fibronectin compared with the native protein. This suggests that regions of the molecule which were previously resistant to proteolysis were denatured to create susceptible sites for elastase. This demonstration that fibronectin is extensively modified by the myeloperoxidase system has implications for the mechanism of tissue injury by neutrophils in inflammation, since a loss of functional fibronectin would result in cell detachment and a distortion of normal tissue organization.
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PMID:Oxidative damage to fibronectin. I. The effects of the neutrophil myeloperoxidase system and HOCl. 184 32

A 135-kD conA-binding glycoprotein isolated from pig epidermis was previously localized to the surface of basal cells in stratified epithelia using affinity-purified antibodies. Preembedding immunoperoxidase electron microscopy has now shown that this glycoprotein is concentrated on the lateral surfaces of basal cells but is not detectable on those surfaces adjacent to the basement membrane indicating a role in cell-cell rather than cell-substrate interactions. The basal cell glycoprotein was shown to resemble the beta 1 subunit of the integrin family following the generation of a specific monoclonal antibody (M5.25). The epidermal glycoprotein recognized by M5.25 and by antibodies against the beta 1 fibronectin receptor from human placenta co-migrated on SDS gels under both reducing and non-reducing conditions. Its response to disulphide reducing agents was characteristic of beta 1 integrin subunits. In addition, the basal cell glycoprotein was shown to bind to the 120-kD cell-binding fragment of fibronectin in a RGD-dependent manner. It was readily detected by immunoblotting whole cell lysates of cultured pig keratinocytes suggesting increased expression in cultured cells compared to fresh epithelial tissue. The results suggest that beta 1 integrin subunits may be involved in cell-cell interactions between basal keratinocytes in pig epidermis and that these receptors are lost from the cell surface during terminal differentiation. Thus modulation of beta 1 integrin subunit expression may play an important role in regulating differentiation in pig epidermis.
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PMID:Basal cell glycoprotein in pig epidermis closely resembles the beta 1 subunit of the integrin family of cell adhesion molecules. 187 49

Apically secreted 80-kDa glycoprotein (gp 80) from Madin-Darby canine kidney cells was found to be immunoprecipitated by the polyclonal antiserum against fibronectin or a monoclonal antibody specific for the fibronectin C-terminal fibrin binding domain. Upon sodium dodecyl sulfate-polyacrylamide gel electrophoresis (SDS-PAGE), gp 80 migrated as a doublet band under nonreducing conditions. Under reducing conditions, gp 80 was resolved into three distinct bands, respectively of 45-, 40-, and 35-kDa molecular mass. Analysis by two-dimensional SDS-PAGE revealed that gp 80 exists in two molecular forms: one consisting of a 45-kDa subunit and a 40-kDa subunit, and one consisting of a 45-kDa subunit and a 35-kDa subunit. V-8 protease mapping indicated the 40 and 35-kDa subunits as being of the same homologous group and also as bearing partial homology to the 45-kDa subunit. Radioactive labeling revealed that labeled gp 80 was subjected to covalent modifications by sulfation and phosphorylation. Sulfate analysis showed that [35S]sulfate-labeled gp 80 contained ca. 2.45 +/- 0.07% tyrosine-bound [35S]sulfate with the rest being presumably carbohydrate-bound. [32P]-Phosphate-labeled gp 80, on the other hand, was found to contain serine-O-phosphate as the predominant phosphorylated amino acid residue. Employing the affinity gel fractionation technique, it was shown that gp 80 exhibited binding affinities toward heparin and fibrin. Binding of gp 80 to heparin-agarose or fibrin-Sepharose, however, was inhibited in the presence of added fibronectin or the monoclonal antibody. Tryptic peptide mapping revealed common peptide spots between fibronectin and the three subunits of gp 80. Furthermore, Western blot analysis showed that fibronectin could be recognized and bound by anti-gp 80 antibodies. These results indicate that gp 80 bears both structural and functional similarities to the C-terminal portion of the fibronectin molecule.
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PMID:Post-translational modifications and binding properties of the apically secreted 80-kDa glycoprotein from Madin-Darby canine kidney cells: similarities to the C-terminal portion of the basolaterally secreted fibronectin. 189 61

Skin explant cultures from hairless mice of increasing age were incubated with radioactive precursors in order to determine the age-dependent variations of the biosyntheses of fibronectin and fibrous collagens (types I and III). Total collagen synthesis expressed as a percentage of total protein synthesis did not vary with age but, if expressed as micrograms hydroxyproline per mg wet weight of skin, decreased by about 30% between 2 and 22 months of age. Hydroxylation of collagen, expressed as the ratio of 3H-hypro over 3H (pro + hypro) incorporated in freshly synthesized collagen, decreased with age by about 40% between 2 and 22 months of age. The proportion of type III collagen expressed as % of type I + type III collagens increased progressively with age by about 25% at 12 months to 60% at 22 months of age. Fibronectin biosynthesis, determined by immunoprecipitation of 35S-methionine labeled peptides in SDS-extracts of skin increased progressively with age from about 2% of total incorporated radioactivity in fibronectin at 2 months to 4% at 22 months. Plasma fibronectin, of hepatic origin, was shown already to increase with age in humans. It appears thus that the expression of genes coding for extracellular matrix macromolecules is under age-dependent regulation. This regulation appears to be different for the investigated macromolecules.
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PMID:Age-dependent variations of the biosyntheses of fibronectin and fibrous collagens in mouse skin. 193 96

A novel detection principle applicable for sensitive measurement of molecules of biological interest by time-resolved fluorescence spectrophotometry is described. Our method is based on the quantification of the Eu3+ chelator 4,7-bis(chlorosulfophenyl)-1,10-phenanthroline-2,9-dicarboxylic acid (BCPDA) in solution in presence of an excess of Eu3+ ions. BCPDA-labeled solid phase complexes obtained by conventional immunoassay procedures are transferred into solution using urea/SDS/Eu3+ as dissociating and fluorescent lanthanide ion reagent. Two 'sandwich-type' assay variants based on the above methodology were realized for the determination of small amounts of fibronectin (FN) in biological fluids. FN is captured from solution by solid phase coated gelatin or a monoclonal antibody, respectively. Rabbit anti-FN antiserum used as second antibody is detected with a biotinylated anti-rabbit IgG antibody. Fluoresence is measured after incubation with streptavidin-BCPDA and dissociation of solid phase complexes as described. Both assays have a detection limit (blank + 3 x SD) of less than 0.5 ng/ml FN, a dynamic range of up to 300 ng/ml, and intraserial coefficients of variation of 4.4 and 6.3%, respectively. Median FN concentrations in saliva of healthy individuals were 104 (gelatin) and 36 ng/ml (double antibody), respectively.
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PMID:Time-resolved immunofluorometric assays with measurement of a europium chelate in solution: application for sensitive determination of fibronectin. 195 74

Exposure of the vessel wall to hypoxemia is a central feature of ischemic cardiovascular disease. This led us to examine the perturbation of endothelial cell properties under hypoxia. An atmosphere of pO2 of 12 mmHg is not lethal to the endothelial cells for up to five days, but barrier function was impaired. Increased passage of macromolecule tracers were observed in time- and dose-dependent manner and electron microscopy demonstrated small gaps (0.5-1.0 micron) between cells. Expression of the anticoagulant cofactor thrombomodulin was also perturbed: thrombomodulin activity and antigen decreased in parallel. Northern blots showed almost complete suppression of thrombomodulin in hypoxic culture. Furthermore, synthesis of other proteins, such as fibronectin, was slightly enhanced under hypoxia. In addition to the suppression of these anticoagulant cofactor, hypoxic endothelial cell displayed a noval procoagulant activity distinct from tissue factor. Further study revealed that hypoxic endothelial cultures directly activated Factor X, as assessed by functional assays and SDS-PAGE. In addition to this no activation of Factor IX or prothrombin was observed. The hypoxia-induced Factor X activator was membrane-associated, required calcium to form Factor Xa, was inhibited by HgCl2 but not by PMSF, and had Km approximately 25 micrograms/ml. Co-incubation of hypoxic cultures with cycloheximide prevented the expression of this activity, suggesting that protein synthesis is required for its expression. These functional perturbations of endothelial cells were reversible following reoxygenation. These data indicate that hypoxia imposes a selective perturbation on endothelial cell function, suggesting the possible contribution of hypoxemia to vascular dysfunction in ischemia.
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PMID:Modulation of endothelial function by hypoxia: perturbation of barrier and anticoagulant function, and induction of a novel factor X activator. 196 56

Peptides patterned on the N-terminal sequence of fibronectin were synthesized and tested for amine acceptor qualities in reactions with dansylcadaverine catalyzed either by coagulation factor XIIIa or intracellular transglutaminase (protein-glutamine:amine gamma-glutamyltransferase, EC 2.3.2.13). On the basis of inverse half-saturations of the enzymes, the order of acceptor substrate affinity for factor XIIIa was pEAQQIV much greater than Boc-AQQIV greater than Boc-QQIV, and for transglutaminase, Boc-QQIV greater than Boc-AQQIV greater than pEAQQIV (amino acid residues are shown in one-letter code; pE, pyroglutamic acid; Boc, tert-butyloxycarbonyl). Sequence analysis of dansylcadaverine-substituted pEAQQIV indicated that the first of the two adjacent glutamine residues was the target of enzymatic modification. Boc-QIV showed no substrate activity with either enzyme. Crosslinking of crystallins in Ca2(+)-treated rabbit lens homogenate was readily inhibited by Boc-QQIV, Boc-AQQIV, and pEAQQIV, as was the formation of alpha-chain polymers in human fibrin by pEAQQIV in the presence of human factor XIIIa. SDS/PAGE analysis suggested that the inhibitory peptides selectively blocked the electron donor functionalities in these enzymatic crosslinking reactions.
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PMID:Labeling of epsilon-lysine crosslinking sites in proteins with peptide substrates of factor XIIIa and transglutaminase. 197 26

The gelatin-binding region of fibronectin is isolated easily as a stable and functional 42 kDa fragment containing four type I "finger" modules and two type II "kringle-like" modules arranged in the order I6-II1-II2-I7-I8-I9. This fragment exhibits a single reversible melting transition near 64 degrees C in TBS buffer (0.02 M-Tris buffer containing 0.15 M-NaCl, pH 7.4). The transition is characterized by a calorimetric to van't Hoff enthalpy ratio of 1.6, suggesting a complex domain structure. A 30 kDa fragment with the same NH2 terminus (I6-II1-II2-I7) melts reversibly near 65 degrees C with delta Hcal/delta HvH = 1.3, also consistent with the presence of more than one domain. To elucidate further the domain structure, three non-overlapping subfragments were prepared and characterized with respect to their unfolding induced by heat and guanidinium chloride. The three subfragments, each containing two modules, are designated from amino or carboxyl-terminal location as 13 kDa (I6-II1) 16 kDa (II2-I7) and 21 kDa (I8-I9) according to their apparent Mr in SDS/polyacrylamide gel electrophoresis. All three subfragments exhibited reversible transitions in TBS buffer, behaving in the calorimeter as single co-operative units with delta Hcal/delta HvH close to unity. However, the specific enthalpies and changes in heat capacity associated with the melting of all fragments and subfragments in TBS buffer were low compared to those of most compact globular proteins, suggesting that not all modules are represented. When titrated with guanidinium chloride at 25 degrees C, all fragments exhibited monophasic reversible unfolding transitions detected by changes in fluorescence. Heating in the presence of 6 M-guanidinium chloride revealed three additional transitions not seen in the absence of denaturants. These transitions have been assigned to three of the four type I finger modules (I6, I7 and I9), one of which (I6) was isolated and shown to retain a compact structure as stable as that observed for this module within the parent fragments. Two other modules (II2 and I7) are destabilized when separated from their neighbors. Thus, despite their small size (50 to 60 amino acid residues), all six of the modules in the gelatin-binding region of fibronectin form independently folded domains, three of which (I6, I7 and I9) are unusually stable. Evidence is provided that four of the six modules interact with each other in the parent fragment. This interaction may explain previously noted disruptions in the otherwise uniform strand-like images seen in electron micrographs of fibronectin.
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PMID:Domain structure and interactions of the type I and type II modules in the gelatin-binding region of fibronectin. All six modules are independently folded. 199 38

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