Endothelial cells produce a substance that inhibits contact activation of coagulation by blocking the activation of Hageman factor.

Human umbilical vein endothelial cells (HUVECs) produce a property that impairs the generation of coagulant and amidolytic activity initiated when normal human plasma is exposed to glass. This inhibitory property blocks the adsorption of Hageman factor (factor XII) to glass, thereby preventing the activation of Hageman factor, but does not impair the coagulant or amidolytic activity of already activated Hageman factor (factor XIIa). This property in HUVEC lysates could be neutralized by a purified preparation of Hageman factor but not by purified prekallikrein or high molecular mass kininogen.

Mechanism of enhanced kinin release from high molecular weight kininogen by plasma kallikrein after its exposure to plasmin.

When purified high molecular weight kininogen was incubated with streptokinase-activated plasmin and kallikrein, a larger amount of kinin was released than would have been predicted from the effect of either enzyme alone. To determine the mechanism of this enhancement, high molecular weight kininogen was digested sequentially with these enzymes, and the rates of kinin release and sites of cleavage were determined. Conversion of 133 kd native high molecular weight kininogen to two-chain 112 kd or 102 kd derivatives by plasmin more than doubled the rate of kinin release by kallikrein.

Plasma kininogen concentration: the low level in cord blood plasma and age dependence in adults.

Antigenic concentration of total kininogen, kinin liberated in vitro, and the antigenic concentration of high molecular weight (HMW) kininogen was measured in 58 different samples of cord blood plasma and in plasma samples from 67 healthy blood donors. Total kininogen and kinin concentration in cord blood plasma was more than twice as low as in pooled plasma of adult persons, and the concentration of HMW-kininogen in cord blood plasma was close to one-third of normal. The concentration of total kininogen and of HMW-kininogen increased with age in adults.

[Concentration of kininogens and low molecular kininogen antigen in plasma of pregnant rabbits and newborn progeny in health and following intravenous infusion of purified thrombin].

High levels of trypsin-releasing kinin and low molecular plasma kininogen antigen were detected in plasma of pregnant female rabbits. Respective values in plasma of their new born progeny was 2.7 times lower than that in maternal plasma.

Granulocyte elastase cleaves human high molecular weight kininogen and destroys its clot-promoting activity.

Purified human granulocyte elastase cleaved purified human high molecular weight (HMW) kininogen into multiple low molecular weight fragments, and destroyed the clot-promoting activity of the HMW kininogen. Elastase digestion did not release kinin or destroy the bradykinin portion of the HMW kininogen molecule; kallikrein could release kinin from the elastase-induced low molecular weight digestion products of HMW kininogen. Purified alpha 1-antitrypsin prevented the destruction of the clot-promoting activity of HMW kininogen by elastase; it also delayed the clotting of normal plasma.