Surface-dependent activation of human factor XII (Hageman factor) by kallikrein and its light chain

In this paper we report the effect of sulfatides on the rate constants of factor XII activation by kallikrein and its isolated light chain (the domain of kallikrein that contains the active site of the enzyme). In the absence of sulfatides, kallikrein and the light chain were equally effective in factor XII activation (k1 = 1.57 X 10(3) M-1 s-1 at pH 7.0). The pH optima were the same (pH 7.0) and the reaction was not affected by variation of the ionic strength. Sulfatides strongly increased the rate constants of factor XIIa formation. In the presence of sulfatides kallikrein was, however, much more active than its light chain. At 330 microM sulfatides, pH 7.0 and 100 mM NaCl the rate constants of factor XII activation were 5.34 X 10(6) M-1 s-1 and 4.17 X 10(4) M-1 s-1 for kallikrein and its light chain, respectively. The pH optimum of factor XII activation by kallikrein in the presence of sulfatides was shifted to pH 6.3, and the reaction became highly ionic-strength-dependent. The rate constant increased considerably at decreasing NaCl concentrations. The optimum pH for light-chain-dependent factor XII activation in the presence of sulfatides remained unaltered and the reaction was not affected by the ionic strength. Binding studies revealed that both kallikrein and factor XII bind to the sulfatide surface, whereas no binding of the light chain of kallikrein was detectable. The isolated heavy chain of kallikrein had the same binding properties as kallikrein, which indicates that the heavy-chain domain contains the functional information for kallikrein binding to sulfatides. Since the effects of pH and ionic strength on the rate constants of kallikrein-dependent factor XII activation in the presence of sulfatides correlated with effects on the binding of kallikrein, it is concluded that under these conditions surface-bound factor XII is activated by surface-bound kallikrein. Our data suggest that sulfatides stimulate kallikrein-dependent factor XII activation by two distinct mechanisms: by making factor XII more susceptible to peptide bond cleavage by kallikrein and by promoting the formation of the enzyme-substrate complex through surface binding of kallikrein and factor XII.     

Autoactivatability of human Hageman factor (factor XII)

Purified Hageman factor was found to autodigest upon binding to a negatively charged surface such as kaolin. Assessment by incorporation of tritiated diisopropylfluorophosphate indicated that this cleavage was accompanied by activation and that the two known forms of activated Hageman factor result. Cleavage within a critical disulfide bridge generated activated Hageman factor, a two-chain enzyme of molecular weight 80,000 as well as the active Hageman factor fragment, a 28,000 molecular weight cleavage product. The autocleavage seen was dependent upon the percentage of activated Hageman factor in the starting material and was independent of HMW-kininogen. This result suggest that initiation of the intrinsic coagulation cascade may, in part, depend upon the autoactivatability of Hageman factor described herein. This observation may in turn, account for the ability of prekallikrein deficient plasma to gradually autoactivate as a function of the time of contact with initiating surfaces.     

Hageman factor substrates. Human plasma prekallikrein: mechanism of activation by Hageman factor and participation in hageman factor-dependent fibrinolysis.

Two molecular forms of prekallikrein can be isolated from pooled normal human plasma. Their approximate molecular weights by sodium dodecyl sulfate-gel electrophoresis are 88,000 and 85,000. The two bands observed are shown to represent prekallikrein by functional, immunochemical, and structural criteria. Both forms are cleaved by activated Hageman factor, they appear to share antigenic determinants, they are not interconvertible upon incubation with activated Hageman factor or kallikrein, and the ratio of kinin-generating, and plasminogen-activating activities of the preparations are independent of the relative proportion of each band. Activated Factor XII converts prekallikrein to kallikrein by limited proteolysis and two disulfide-linked chains designated kallikrein heavy chain (Mr = 52,000) and kallikrein light chains (Mr = 36,000 or 33,000) are formed. The active site is associated with the light chains as assessed by incorporation of [3H]diisopropyl fluorophosphate. No dissociable fragments were observed in the absence of reducing agents. However, kallikrein could digest prekallikrein to diminish its molecular weight by 10,000. In addition, two factors capable of activating plasminogen to plasmin have been isolated; one is identified as kallikrein. The second principle fractionates with Factor XI and is demonstrable in normal and prekallikrein-deficient plasma.     

In vitro activation of the contact activation system (Hageman factor system) in plasma by acidic phospholipids and the inhibitory effect of beta 2-glycoprotein I on this activation

1. Negatively charged phospholipids promote initiation of the contact activation system in the blood coagulation. 2. Neutral phospholipids were unable to activate this system. 3. The activation is inhibited by beta 2-glycoprotein I at physiological concentrations. 4. The results raise the question whether people with low concentration of beta 2-glycoprotein I are more easily exposed to blood coagulation defects, such as disseminated intravascular coagulation, than those with normal concentration of beta 2-glycoprotein I.     

Pumpkin seed inhibitor of human factor XIIa (activated Hageman factor) and bovine trypsin

A strong inhibitor of human Hageman factor fragment (HFf, beta-factor XIIa) and bovine trypsin was isolated from pumpkin (Cucurbita maxima) seed extracts by acetone fractionation, by chromatography on columns of diethyl-aminoethylcellulose and carboxylmethyl-Sephadex C-25, and by Sephadex G-50 gel filtration. Pumpkin seed Hageman factor inhibitor (PHFI) is unusual in its lack of inhibition of several other serine proteinases tested--human plasma, human urinary, and porcine pancreatic kallikreins, human alpha-thrombin, and bovine alpha-chymotrypsin. Human plasmin and bovine factor Xa are only weakly inhibited. PHFI also inhibits the HFf-dependent activation of plasma prekallikrein and clotting of plasma. Other properties of PHFI are a pI of 8.3, 29 amino acid residues, amino-terminal arginine, carboxyl-terminal glycine, 3 cystine residues, undetectable sulfhydryl groups and carbohydrate, and arginine at the reactive site. The minimum molecular weight of PHFI is 3268 by amino acid analysis. PHFI may be the smallest protein inhibitor of trypsin known.     

The inhibition of activated factor XII (Hageman factor) by antithrombin III: the effect of other plasma proteinase inhibitors.

Human factor XII was activated by adsorption onto kaolin in the presence of high molecular weight kininogen. The washed kaolin-containing precipitates activate prekallikrein to kallikrein. When antithrombin III was added to the reaction mixture, the conversion of prekallikrein to kallikrein was inhibited, the degree of inhibition depending on the concentration of antithrombin and the time of incubation. Heparin had a slight enhancing effect with low concentrations of antithrombin and short incubation times. However, the inhibition of the generated kallikrein by antithrombin III was markedly enhanced by heparin. Antithrombin III inhibited also the effect of activated factor XII on the partial thromboplastin time, using factor XII-deficient plasma. Of other plasma proteinase inhibitors used (α₁-antitrypsin, α₂-macroglobulin, C$\text{l}$-inactivator) only C$\text{l}$-inactivator inhibited activated factor XII.     

Hageman factor deficiency (factor XII)--hemorrhage or thrombosis?

Four generations of a kin with congenital Factor XII deficiency were examined for coagulation and fibrinolysis, with the homozygous female carrier of features with a Factor XII below 1% also revealing certain indications of a disturbed fibrinolysis. The other members of the family had to be evaluated as heterozygous ones, showing values of Factor XII between 40 and 60%. The findings are discussed by referring to data from literature.     

Amino acid sequence of the heavy chain of human alpha-factor XIIa (activated Hageman factor)

The amino acid sequence of the heavy chain of human alpha-factor XIIa (activated Hageman factor) was determined by automated Edman degradation using the peptides produced by chemical and enzymatic cleavages of intact factor XII and alpha-factor XIIa. Combining this sequence with the previously determined sequence of beta-factor XIIa (Fujikawa, K., and McMullen, B. A. (1983) J. Biol. Chem. 258, 10924-10933), the complete amino acid sequence of human factor XII has been established. The heavy chain of alpha-factor XIIa is composed of 353 amino acid residues containing one Asn-linked and six probable O-linked carbohydrate chains. The heavy chain of alpha-factor XIIa appears to contain four different domains including a "kringle," a "growth factor" domain, and the "type I" and "type II" domains of fibronectin. The domain organization of factor XII is analogous to those of several fibrinolytic proteins, including tissue plasminogen activator and urokinase, suggesting that factor XII belongs to the same protease subfamily as these two proteins.