Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: UMLS:C0012739 (disseminated intravascular coagulation)
 8,673 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

Cold-insoluble globulin is normally present in plasma and serum at concentrations of 27.52 +/- 4.60 and 23.46 +/- 5.18 mg/dl, respectively (means +/- SD). The concentration of CIg in blood samples was significantly decreased in DIC syndromes (14.69 +/- 6.55 mg/dl; p less than 0.001). A strong, positive correlation was found with AT-III (r = 0.68) and a less striking one with Plg. Although alpha 2-PI was shown to be significantly decreased in DIC syndromes (p less than 0.001), a weak, inverse correlation was found between CIg and alpha 2-PI (r = -0.29). Immunologically cross-reactive substances were found to be widely distributed in association with the cells and tissues of mesenchymal origin, including fibroblasts, adipose cells, smooth muscle cells, and basement membranes. The glomerular basement membrane was an exception and is currently believed to be of different origin. In the kidney, fluorescence was found in the mesangium. Cold-insoluble globulin is also present as a component of cryofibrinogen that forms a solid gel at low temperatures. Sodium dodecyl sulfate polyacrylamide gel electrophoresis revealed that CIg in this fraction was rather homogeneous. Although closely migrating doublets were occasionally seen in the 440,000-dalton region on gels of unreduced samples, monomeric derivatives with a molecular weight of 220,000 or less, which have been claimed to occur in circulating plasma, were not observed. Thus, intact dimeric CIg appears to be the form of the molecule that complexes with fibrinogen. Cold-insoluble globulin is the fraction that was shown to exist as an independent entity from fibrinogen at an ambient temperature by immunoelectrophoresis and ultracentrifugation. However, very rapid formation of highly polymerized complexes in the sol phase at low temperatures was manifested by the finding of a sharp increase in light-scattering intensity using the technique of quasielastic light scattering. A control study on a mixture of normal CIg and fibrinogen disclosed no appreciable change in the temperature range between 37 and 8.5 degrees C. A comparative study on a mixture of cryofibrinogen-derived CIg and normal fibrinogen revealed an intermediate light-scattering pattern. After 2 hr at 8 degrees C, this mixture reached a state of equilibrium, where no further polymerization occurred. The secondary structures of normal and cryofibrinogen-derived CIg, determined by circular dichroism, showed no appreciable difference. A noteworthy finding was the almost complete absence of alpha-helices and a relatively high proportion of beta-structure in both forms of CIg. Amino termini of the fibrinogen moiety of cryofibrinogen were found to consist of alanine, tyrosine, and a small quantity of aspartic acid, consistent with the NH2 terminal moiety composition of normal fibrinogen but not of soluble fibrin monomer complex.
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PMID:Distribution of cold-insoluble globulin in plasma and tissues. 29 82

Fibrinogen-fibrin-related antigen (FR antigen) was isolated from as little as 1 ml of human plasma by immuno-affinity chromatography with agarose-bound antibody to human fibrinogen. N-terminal analysis was performed to determine the nature and extent of proteolytic degradation of the FR antigen in patients with disseminated intravascular coagulation and in normal subjects. Thrombin cleavage of the A- and B-peptides from fibrinogen in vitro was monitored by the appearance of N-terminal glycine, and an increase in glycine was shown in the FR antigen of patients with disseminated intravascular coagulation. As plasmin progressively degraded fibrinogen, increases in N-terminal alanine, aspartic acid and lysine were observed, corresponding to the known plasmin-cleavage points of fibrinogen; increases in these N-terminal amino acids were also found in the patients' FR antigen. Thrombin treatment in vitro was used to remove fibrinopeptide A (N-terminal alanine) from the samples and to reflect specifically the N-terminal alanine at the plasmin-cleavage point (Arg-42-Ala-43) of the B beta-chain on assay; this alanine was increased progressively in the FR antigen of a patient during urokinase therapy, and was high in other patients when the FR antigen was examined by this procedure.
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PMID:Quantitative N-terminal analysis of fibrinogen-fibrin-related antigen [FR antigen] from human plasma. 54 36

We previously reported that fibroblasts were found to spread far more avidly on NaBr-solubilized fibrin monomer (FM) monolayers than on immobilized fibrinogen (Fbg), indicating that removal of fibrinopeptides by thrombin is a prerequisite for the fibrin-mediated augmentation of cell spreading [J. Biol. Chem. 272 (1997) 8824-8829]. Soluble fibrin (SF), a 1:2 complex of fibrin-monomer and fibrinogen, is known to be present in the circulating blood under the pathological condition in which blood coagulation is activated. However, its physiological roles are still incompletely known. Fibroblasts spread on immobilized purified soluble fibrin. Cells spreading on immobilized soluble fibrin were blocked by the exogenous addition of soluble fibrin and glycine-arginine-glycine-aspartic acid-serine-phenylalanine (GRGDSP)-synthetic peptide but not by the addition of fibrinogen or fibrin monomer. However, cell spreading activity was decreased in the surfaces coated with fragment X, whose Aalpha-chains lack carboxyl-terminal segments including arginine-glycine-aspartic acid (RGD)-2 domain, fibrin monomer complexes. It suggests that the RGD-2 domain of fibrinogen after being complexed with fibrin monomer plays a pivotal role for soluble fibrin-dependent cell spreading. Soluble fibrin in plasma derived from the patients of disseminated intravascular coagulation (DIC) was immuno-purified using the monoclonal antibody (mAb) which specifically recognizes the Ca(++)-dependent conformer of fibrinogen. The purified soluble fibrin consisted of desAA-fibrin monomer and two fibrinogen molecules and did show the cell spreading activity. Thus, soluble fibrin in plasma plays a role as the modulator of thrombogenic process in vivo.
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PMID:Soluble fibrin augments spreading of fibroblasts by providing RGD sequences of fibrinogen in soluble fibrin. 1538 93