Gene/Protein Disease Symptom Drug Enzyme Compound
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Query: EC:3.5.1.52 (PNGase F)
 1,527 document(s) hit in 31,850,051 MEDLINE articles (0.00 seconds)

We recently developed an enzyme-linked immunosorbent assay (ELISA) for total protein S (PS) antigen using the monoclonal antibody S-12. During the screening of thrombophilic patients we identified a patient, who was using marcoumar, with 0% PS by monoclonal ELISA and 23% PS by polyclonal ELISA. Further analysis of this patient and his family showed that the patient was a compound heterozygote for type 1 PS deficiency and for an abnormal PS molecule (PS-Heerlen) that was not recognized by the S-12 antibody. Similar observations were made in two sisters from an unrelated Dutch family. Subsequent studies showed that PS Heerlen has a slightly lower molecular weight (71,000) than normal PS (73,000), binds normally to C4b-binding protein, and retains full activated protein C cofactor activity. The alteration in the PS Heerlen molecule was identified as a substitution of Ser460 by Pro, which is due to a unique T---C transition in exon 13 of the active PS-alpha gene. The substitution occurs in the consensus sequence for the potential N-linked glycosylation of Asn458. Digestion with N-glycanase showed that normal PS probably contains three N-linked oligosaccharide side chains, while PS Heerlen contains only two (Asn458 not glycosylated?). Segregation analysis in the two original families showed that the presence of the genetic abnormality was always associated with the PS-Heerlen phenotype. The frequency of the PS-Heerlen allele was found to be 0.52% in the general population and 0.67% in a population of patients with unexplained thrombophilia. There is no evidence that the PS Heerlen allele is associated with an increased risk for thrombosis.
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PMID:Heerlen polymorphism of protein S, an immunologic polymorphism due to dimorphism of residue 460. 214 91

Human protein S (HPS) has three potential N-linked glycosylation sites at Asn458, 468, 489. To study the role of glycosylation at these sites, PCR mutagenesis was used to abolish the consensus sequence of each N-linked glycosylation site (Asn458-->Gln, Ser460-->Gly; Asn468-->Gln, Thr470-->Gly; Asn489-->Gln, Thr491-->Gly) in full-length HPS cDNA. Each resulting construct was expressed in human kidney 293 cells by stable transfection of cDNA/SV40/adeno/pBR322-derived expression vectors, and conditioned medium was collected for recombinant protein purification. SDS-PAGE gels revealed that glycosylation mutants migrate identically and faster than the wild-type rHPS, showing that each of the three potential N-glycosylation sites contain a similar amount of carbohydrate. Mass spectral analysis yielded similar results and a molecular mass of approximately 78,000 for wild-type HPS. To demonstrate that the difference in mobility between wild-type and mutant protein S is due to their carbohydrate content, plasma-derived HPS and recombinant HPS were subjected to N-glycanase digestion and subsequently shown to migrate identically on SDS-PAGE gels. All forms of HPS have similar time courses for cleavage by alpha-thrombin. Functional studies indicate that wild-type rHPS possesses the same cofactor specific activity as plasma-derived HPS, as tested by a standard clotting assay. Asn458 and Ser460 mutant rHPS have only a slightly higher cofactor activity, whereas the other four mutants have similar clotting activities, compared to wild-type rHPS. In a purified component system, glycosylation mutants of protein S showed a slightly enhanced ability to stimulate APC-mediated factor Va inactivation after an initial lag phase. The interaction of rHPS glycosylation mutants with human C4b-binding protein (C4bp) was also studied by solution phase equilibrium binding assay. Two mutants (Asn458, Ser480) have marginally lower dissociated constants (Kd) with C4bp, whereas the others have the same apparent Kd as wild-type rHPS.
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PMID:The effect of N-linked glycosylation on molecular weight, thrombin cleavage, and functional activity of human protein S. 924 50

Short consensus repeat (SCR1-3), the first three SCR modules from N-terminus of type 1 complement receptor (CR1), is expected to accelerate dissociation of complement components and suppress complement activity by binding the main component of complement C4b. In order to clarify the three-dimensional structure, which triggers the activity of SCR1-3 on complement, we constructed an over-expression system in CHO DG44 cells which facilitated mass production of SCR1-3. The mass production was achieved by a two-stage culture system and optimum culture conditions using ASF104N medium and MTX-, NaBu-containing alpha-MEM/10% FBS medium, respectively. The constructed gene of SCR1-3 was confirmed by restriction enzyme digestion and DNA sequence analysis, and the expressed protein by CHO DG44 cells was confirmed by western blotting. The expressed SCR1-3 was proved containing N-linked sugar chain, an important factor to the proper expression of protein, by the cleavage with glycosidase of N-linked oligosaccharide (PNGase F). The suppression effect of the yield protein on complement-mediated inflammation was investigated by haemolytic assay and necrosis assay of stromal cells. Both assays showed that SCR1-3 possessed complement control activity. However, residing sugar chain on SCR1-3 did not show significant difference in the complement control activity.
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PMID:Construction of the plasmid, expression by Chinese hamster ovary cell, purification and characterization of the first three short consensus repeat modules of human complement receptor type 1. 1921 89

Ab-initiated, complement-dependent killing contributes to host defenses against invasive meningococcal disease. Sera from nonimmunized individuals vary widely in their bactericidal activity against group B meningococci. We show that IgG isolated from select individuals can block killing of group B meningococci by human sera that are otherwise bactericidal. This IgG also reduced the bactericidal efficacy of Abs directed against the group B meningococcal protein vaccine candidates factor H-binding protein currently undergoing clinical trials and Neisserial surface protein A. Immunoblots revealed that the blocking IgG was directed against a meningococcal Ag called H.8. Killing of meningococci in reactions containing bactericidal mAbs and human blocking Abs was restored when binding of blocking Ab to meningococci was inhibited using either synthetic peptides corresponding to H.8 or a nonblocking mAb against H.8. Furthermore, genetic deletion of H.8 from target organisms abrogated blocking. The Fc region of the blocking IgG was required for blocking because F(ab')(2) fragments were ineffective. Blocking required IgG glycosylation because deglycosylation with peptide:N-glycanase eliminated blocking. C4b deposition mediated by an anti-factor H-binding protein mAb was reduced by intact blocking IgG, but not by peptide:N-glycanase-treated blocking IgG, suggesting that blocking resulted from inhibition of classical pathway of complement. In conclusion, we have identified H.8 as a meningococcal target for novel blocking Abs in human serum. Such blocking Abs may reduce the efficacy of select antigroup B meningococcal protein vaccines. We also propose that outer membrane vesicle-containing meningococcal vaccines may be more efficacious if purged of subversive immunogens such as H.8.
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PMID:Novel blocking human IgG directed against the pentapeptide repeat motifs of Neisseria meningitidis Lip/H.8 and Laz lipoproteins. 2140 95