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

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Query: UNIPROT:P02774 (Gc-globulin)
196 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

The group-specific component (GC) was discovered in 1959, and in the same year a vitamin D binding protein (DBP) in human plasma was found; however, their identity was established as late as 1975. In the GC/DBP system three common alleles, GC*1F, GC*1S, and GC*2, determine six GC phenotypes: 1F, 1S, 2, 1F-1S, 2-1F and 2-1S, these common alleles having been found in all human populations studied. In addition, more than 120 GC variants have been discovered, with varying frequencies in different populations. The distribution of the common GC phenotypes and the presence of rare GC variant phenotypes render the GC/DBP system useful for the analysis of disputed paternities.
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PMID:The group specific component/vitamin D binding protein (GC/DBP) system in the analysis of disputed paternities. 323 81

The chemotactic activity of human C5a des Arg is enhanced significantly by an anionic polypeptide (cochemotaxin) in normal human serum and plasma. The cochemotaxin attaches to sialic acid residues within the oligosaccharide chain of native C5a des Arg to form a complex with potent chemotactic activity for human PMN. We investigated the nature of the cochemotaxin and found that vitamin D-binding protein is the putative cochemotaxin. Vitamin D-binding protein enhanced the chemotactic activity of native C5a des Arg, but had no effect on the chemotactic activity of either native C5a or FMLP. Sialic acid prevented both enhancement by vitamin D-binding protein of the chemotactic activity of native C5a des Arg and formation of C5a des Arg-vitamin D-binding protein complexes, detected by molecular sieve chromatography. Furthermore, vitamin D-binding protein and cochemotaxin exhibited identical molecular weights, isoelectric points, antigenic reactivity, and amino acid composition.
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PMID:Identification of the C5a des Arg cochemotaxin. Homology with vitamin D-binding protein (group-specific component globulin). 339 12

Several serum proteins have been shown to be important in modulating leukocyte chemotaxis and inflammation. We investigated the possibility that the multifunctional serum protein Gc-globulin (vitamin D-binding protein) may also enhance the neutrophil chemotactic activity of complement-derived peptides. Purified Gc-globulin by itself did not induce chemotaxis of human neutrophils. However, as little as 0.01 nM Gc-globulin greatly enhanced the neutrophil chemotactic activity of C5a and its derivative, C5a des Arg over a wide concentration range. The effect was most pronounced at nonchemotactic doses of C5a (0.01 nM) and C5a des Arg (1 nM). Gc-globulin was unable to augment the neutrophil chemotactic activity of FMLP and leukotriene B4. This enhancing activity was not due to a nonspecific effect of anionic proteins since other purified serum proteins, of similar size and charge as Gc-globulin (alpha 1 acid glycoprotein, alpha 2 HS glycoprotein, alpha 2 histidine-rich glycoprotein), could not increase the chemotactic activity of C5a des Arg. Serum depleted of Gc-globulin by immunoaffinity chromatography totally lacked chemotactic enhancing activity for C5a des Arg. Gc-globulin-depleted serum activated with zymosan also had significantly less chemotactic activity than control- (sham-depleted) activated serum. Finally, radioiodinated C5a or C5a des Arg formed a 1:1 complex with purified Gc-globulin when analyzed by gel filtration chromatography. These results indicate that Gc-globulin is the major chemotactic enhancing factor in serum and may function as an up-regulator of the chemotactic activity of C5-derived peptides.
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PMID:Gc-globulin (vitamin D-binding protein) enhances the neutrophil chemotactic activity of C5a and C5a des Arg. 339 13

In the present paper the ability of Gc-globulin and transferrin to bind endotoxin of Escherichia coli 0 111: B 4 is demonstrated. This conclusion is based on four lines of evidence. By affinity chromatography using lipopolysaccharide of E. coli 0 111: B 4 two endotoxin-binding proteins of serum were identified, showing an apparent molecular weight of 77,000 and 51,000, respectively. If serum samples preincubated with the tritiated endotoxin form have undergone isoelectric focusing under non-denaturing conditions one radioactive peak appears which coincides with the precipitate obtained by immunoelectrophoresis against anti-human Gc-globulin and anti-human transferrin. Radioimmunoprecipitation experiments of serum showed that tritiated endotoxin of E. coli 0 111: B 4 was only found in the precipitate obtained with anti-Gc-globulin, antitransferrin, and polyvalent antiserum against human serum. By isoelectric focusing of purified proteins 3H-lipopolysaccharide of E. coli 0 111: B 4 was only found associated with human Gc-globulin and transferrin.
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PMID:Evidence for endotoxin binding capacity of human Gc-globulin and transferrin. 355 89

Complexing of serum Gc (Vitamin D-binding protein) with cellular actin can occur in the extracellular space as a result of cell turnover, and particularly cell necrosis. The clearance of such complexes is significantly more rapid than that of Gc alone, and several tissues are involved in their uptake, but the mechanisms involved are unknown. We present evidence here that interaction with actin results in alteration of certain physicochemical properties of Gc. Fluorescence of the hydrophobic probe 2-p-toluidinylnaphthylene-6-sulfonate was abolished by complex formation with actin. In addition, isoelectric focusing of complexes between Gc, and actin from different tissues, revealed that complexes were generally more acidic than either protein individually. These findings indicate that complexing of Gc with actin results in altered conformation.
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PMID:Altered conformation of Gc (vitamin D-binding protein) upon complexing with cellular actin. 361 95

Group-specific component (GC), an alpha 2-globulin plasma protein synthesized primarily in the liver, is the major vitamin D-binding protein in plasma. It has two common phenotypes, GC1 and GC2, which appear in all human populations. Using the cDNA insert containing the entire coding sequence of GC2, the GC gene was mapped to human chromosomal bands 4q13----q21.1 by in situ hybridization.
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PMID:Chromosomal localization of group-specific component by in situ hybridization. 375 96

25-Hydroxyvitamin D3-Sepharose was prepared by coupling 25-hydroxyvitamin D3-3 beta-(1,2-epoxypropyl)-ether to thio-activated Sepharose CL-6B, forming a protease-resistant linkage between the sterol and the matrix. Vitamin D-binding protein from human plasma was obtained 85-92% pure after ligand affinity chromatography. Subsequent hydroxylapatite chromatography provided homogeneous protein. The purified vitamin D-binding protein was fully active in regard to 25-hydroxyvitamin D3 and actin binding capabilities.
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PMID:Purification of human serum vitamin D-binding protein by 25-hydroxyvitamin D3-Sepharose chromatography. 377 29

Serum proteins in normal and ARDS bronchoalveolar lavages were analyzed using crossed immunoelectrophoresis. Normal lavages demonstrated relatively few proteins (albumin, alpha 1-antitrypsin, transferrin, and haptoglobin) in low concentrations. In contrast, substantial amounts of all identifiable serum proteins were detected in ARDS lavages. IgA was apparently locally produced. Two of the largest proteins, beta-lipoprotein (mol wt greater than 2 million) and IgM (mol wt approximately 900,000) were found to be complexed as evidenced by their coprecipitation in a single spike in ARDS lavage. Electrophoretic modifications of ARDS albumin and alpha 1-antitrypsin precipitation peaks and partial identity spurring of the alpha 1-lipoprotein peak with other precipitation loops indicated possible complex formation between these proteins and other possibly pathogenic lung fluid constituents. Similarly, modifications of orosomucoid and Gc-globulin peaks indicated possible molecular alterations resulting from interactions with other components. The relatively few protein modifications exhibited in ARDS lavages together with alpha 1-antitrypsin-protease complex formation confirm the relative absence of substantial proteolytic activity in ARDS edema fluids obtained within 12 hr of the onset of the syndrome demonstrated in previous studies.
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PMID:Crossed immunoelectrophoretic analysis of ARDS lavage proteins. 379 28

Twenty-seven independent polymorphic loci were detected by two-dimensional electrophoresis (2DE) of serum, erythrocytes, and fibroblasts in two large families and analyzed for linkage to classical genetic markers. We detected seven serum, four erythrocyte, and 17 fibroblast protein loci that exhibited charge variation in these two families and in a sample of unrelated individuals. The genetic basis of protein variants was confirmed by quantitative gene-dosage dependence and by conformance to Mendelian transmission in the two families, except for four rare variants for which transmission analysis was not possible. Linkage analysis demonstrated that each of the variants represent products of independent loci, with the exception of erythrocyte locus (RBC4), which we also detected in fibroblasts (NC27). Two allozyme polymorphisms, glyoxalase-1 (GLO1) and phosphoglucomutase-3 (PGM3) were specifically identified here based on genotypic concordance and molecular mass. Unknown fibroblast protein (NC22) may be linked to apolipoprotein E (lod score = 2.8 at theta m = theta f = 0), while a serum protein locus (SER1) may be linked to alpha-haptoglobin (lod score = 2.54 at theta m = .20, theta f = .01). Six of seven polymorphic serum loci were previously located on two-dimensional gels: alpha-1 antitrypsin (PI), Gc-globulin (GC), alpha-2 HS glycoprotein (HSGA), alpha-haptoglobin (HP), and two apolipoproteins (APOE and APOA4). Six of 17 polymorphisms detected in fibroblasts were positionally identical to polymorphic loci seen in lymphocytes. These studies indicate a minimum level of average protein charge heterozygosity of approximately 2.2% for the most predominant human cellular proteins and of 5.6% for the most predominant proteins of serum.
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PMID:Twenty-seven protein polymorphisms by two-dimensional electrophoresis of serum, erythrocytes, and fibroblasts in two pedigrees. 386 81

Total serum protein levels in 70 patients with urolithiasis were not significantly different from those in 20 control subjects, although certain variations were detected in individual protein patterns. In contrast, total urinary protein was significantly higher in patients with urolithiasis. 4-6 different components, i.e., albumin, alpha 1-acidic glycoprotein, alpha 1-antitrypsin, Gc-globulin, fibrinogen and immunoglobulin G, were found in the matrices of calculi and in urine, suggesting that proteinuria may play a role in the formation of stones in patients with urolithiasis.
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PMID:Immunochemical studies of serum, urine and calculus proteins in urolithiasis. 399 70


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