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.
Confluent cultures of endothelial cells from human umbilical cord were used to study the effect of activated human protein C (APC) on the production of plasminogen activators, plasminogen activator-inhibitor, and factor VIII-related antigen. Addition of APC to the cells in a serum-free medium did not affect the production of tissue-type plasminogen activator (t-PA) or factor VIII-related antigen; under all measured conditions, no urokinase activity was found. However, less plasminogen activator-inhibitor activity accumulated in the conditioned medium in the presence of APC. This decrease was dose dependent and could be prevented by specific anti-protein C antibodies. No decrease was observed with the zymogen protein C or with diisopropylfluorophosphate-inactivated APC. APC also decreased the t-PA inhibitor activity in endothelial cell-conditioned medium in the absence of cells, which suggests that the effect of APC is at least partly due to a direct effect of APC on the plasminogen activator- inhibitor. High concentrations of thrombin-but not of factor Xa or IXa-- had a similar effect on the t-PA inhibitor activity. The effect of APC on the plasminogen activator-inhibitor provides a new mechanism by which APC may enhance fibrinolysis. The data suggest that activation of the coagulation system may lead to a secondary increase of the fibrinolytic activity by changing the balance between plasminogen activator(s) and its (their) fast-acting inhibitor.
Samenvatting Rangcorrelatietabellen In het artikel worden tabellen gegeven voor de verdeling onder de nulhypothese van de toetsingsgrootheid S van Kendall's rangcorrelatiemethode in het geval van ongelijke waarnemingen. (Zie M. G. Kendall, Rank Correlation Methods, London 1948, hoofdstukken 1, 4 en 5). Getabelleerd zijn de eenzijdige overschrijdingskansen van alle voorkomende S‐waarden voor n=4, 5,…, 40 (Tabellen I en II), de kritieke waarden met eenzijdige overschrijdingskansen 0,01, 0,025, 0,01 en 0,1 voor n = 4, 5,…, 40 (Tabel III) en de spreiding van de verdeling van S voor n=40, 41,…, 100 (Tabel IV).
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