[Functional analysis of heterozygous plasma dysfibrinogens derived from two families of gammaArg275Cys and three families of gammaArg275His, and haplotype analysis for these families].

We have identified five heterozygous dysfibrinogenemias, two families with variant fibrinogen gammaArg275Cys (CGC > TGC; Matsumoto III and Sendai) and three families with gammaArg275His (CGC > CAC; Otsu II, Iida, and Shizuoka), from PCR-amplified DNA fragments and direct sequence analysis. gammaArg275 is the most important residue in fibrinogen for the so-called "D-D interface" in protofibril elongation. We compared the functions of plasma fibrinogen purified from affected family members with gammaArg275Cys and gammaArg275His. Both fibrinogens showed markedly impaired thrombin-catalyzed fibrin polymerization in comparison with normal controls. The degree of impairment of gammaArg275Cys fibrinogen was greater than that of gammaArg275His. These results were consistent with the fibrinogen concentration ratio (thrombin time method/immunological method). That is, the ratio of gammaArg275Cys was significantly lower than that of gammaArg275His. Moreover, scanning electron microscopy indicated significantly thicker fibers in fibrin clots made from gammaArg275Cys than in those of normal controls or gammaArg275His, and abnormal bundles with tapered ends. Factor XIIIa-catalyzed cross-linking of the fibrinogen gamma-chain (in the absence of thrombin) showed a similar delay for gammaArg275Cys and gammaArg275His. We report markedly impaired fibrin polymerization of gammaArg275Cys compared to gammaArg275His, and speculate that the difference is due to the disulfide-linked Cys in gammaArg275Cys, as we have already demonstrated for plasma and recombinant mutant fibrinogens. These results also indicate that an amino acid substitution of gammaArg275 disrupts D:D interactions in fibrin fiber formation. Furthermore haplotype analysis for three families with gammaArg275His suggested that founder of Iida family might be different from that of Otsu II or Shizuoka family.

[Analysis of antibody reactivity for FDP D-dimer fragments by Western blotting].

We evaluated three test kits for fibrin degradation products (FDP) D-dimer. We found that six of 217 plasma sample values obtained by Nanopia test were markedly higher than the values obtained using the other two kits. The regression equation for 211 samples (excluding six) was y=0.64x+3.05 (y: Nanopia, x: LIAS AUTO) and the correlation coefficient was 0.915. Therefore, we classified these samples into three categories, namely correlated(y< 1.0x), incompatible (y= 1.0x-2.9x) and markedly incompatible (y> or =3.0x). Selected samples, eight correlated, four incompatible and four markedly incompatible, were analyzed by sodium dodecyl sulfate-polyacrylamide gel electrophoresis followed by Western blotting(WB). WB analysis using anti-fibrinogen antibody showed that both high molecular weight fragments of cross-linked fibrin (HMW-XDP) and DD/E fragments were present in the correlated samples, but there was less HMW-XDP than DD/E in the incompatible samples and mostly DD/E (HMW-XDP was significantly less than DD/E) in the markedly incompatible samples. These data suggest that plasma FDP samples that contain mostly DD/E and little HMW-XDP demonstrated markedly incompatible values using the three D-dimer test kits. These data was reflected by markedly elevated plasmin alpha2-plasmin inhibitor complex values in the incompatible and markedly incompatible samples. Unfortunately, we did not directly demonstrate these phenomena by WB analysis with two anti-D-dimer antibodies used Nanopia or LPIA reagent. In the near future, we expect that standardization of FDP D-dimer assay will be accomplished.

[Analysis of hypofibrinogenemias found on routine coagulation screening tests and identification of heterozygous dysfibrinogenemia or fibrinogen deficiency].

We analyzed the clinical factors resulting in hypofibrinogenemia, which is defined as less than 100mg/dl of plasma fibrinogen values determined by a procedure based on the Thrombin-time method. Within a 12-month period, we assayed 5,746 patients (19,309 plasmas) and found 113 patients (1.97%) with hypofibrinogenemia. We categorized these patients as having decreased synthesis of fibrinogen (less than 3.0g/dl of albumin, 140 IU/l of Cholinesterase, and/or 50% on Hepaplastin Test), increased consumption of fibrinogen (more than 10 microg/ml of FDP D-dimer), known side effect of L-asparaginase administration, or other causes. Details are follows: 1) decreased synthesis: 26 patients, suspected of decreased synthesis (albumin: 3.1-3.4 g/dl): 4 patients, 2) increased consumption: 15 patients, suspected of increased consumption (FDP D-dimer: 5.0-9.9 g/dl): 1 case, 3) decreased synthesis combined with increased consumption: 24 patients, suspected of decreased synthesis and/or suspected of increased consumption: 14 patients, 4) side-effect of L-asparaginase administration: 24 patients, 5) heterozygous dysfibrinogenemia: 1 patient, 6) heterozygous fibrinogen deficiency: 1 patient, suspected of heterozygous fibrinogen deficiency: 1 patient, 7) unidentified: 2 patients with West syndrome treated with a combination of ACTH and valproic acid. Three patients with dysfibrinogenemia or fibrinogen deficiency showed normal or slightly prolonged PT values and normal APTT values. These data and our previous reports suggest that heterozygous patients with dysfibrinogenemia or fibrinogen deficiency do not demonstrate markedly prolonged PT and APTT values, differing from patients with afibrinogenemia.