Analysis of cold activation of the contact system in hereditary angioedema with normal C1 inhibitor.

Hereditary angioedema (HAE) attacks are caused by excessive activation of the contact system. Understanding how the contact system is activated in HAE, especially in patients with normal C1 inhibitor (HAEnCI), is essential to effectively treat this disease. Contact system activation involves the cleavage of several proteins including Factor XII (FXII), high molecular weight kininogen (HK), prekallikrein, sgp120 (ITIH4) and C1 inhibitor (C1-INH) before the subsequent generation of bradykinin that mediates HAE. In this study, we evaluated the fragmentation and enzymatic activity of contact system proteins in HAEnCI plasma samples before and after contact system activation induced by incubation in the cold. Our results show that in contrast to normal plasma, cold activation induced contact system activation in the majority of the HAEnCI patient samples we tested, in which each contact system protein exhibited fragmentation, FXII and kallikrein enzymatic activity increased, and C1-INH functional activity decreased. HAEnCI samples with low FXII concentrations or functional activity were not affected by cold activation. One HAEnCI sample with a plasminogen gene mutation activated the fibrinolytic system, as shown by an increase in concentration of plasma D dimers. Our results suggest that cold activation seems to be initiated by the cleavage of prekallikrein, and that it needs FXII in order to occur. Reported to be susceptible to excessive contact system activation after incubation in the cold, we further applied this system of study to the evaluation of plasma from women undergoing estrogen treatment. Similar to plasma from HAEnCI patients, excessive contact system activation was demonstrated.

[Review of a new subtype of hereditary angio-oedema with normal complement C1-inhibitor].

Hereditary angio-oedema (HAE) is a rare, potentially fatal disease characterized by recurrent swelling of skin and mucosa. Besides HAE with quantitative (type I) or qualitative (type II) deficiency of complement C1-inhibitor (C1-INH), a new subtype of HAE is now described with normal levels of C1-INH. This subtype is possibly underdiagnosed, and a treatment regimen and general knowledge about the condition is still in its infancy. The purpose of this article is to inform Danish doctors about the disease to identify more Danish patients.

Defective glycosylation of coagulation factor XII underlies hereditary angioedema type III.

Hereditary angioedema type III (HAEIII) is a rare inherited swelling disorder that is associated with point mutations in the gene encoding the plasma protease factor XII (FXII). Here, we demonstrate that HAEIII-associated mutant FXII, derived either from HAEIII patients or recombinantly produced, is defective in mucin-type Thr309-linked glycosylation. Loss of glycosylation led to increased contact-mediated autoactivation of zymogen FXII, resulting in excessive activation of the bradykinin-forming kallikrein-kinin pathway. In contrast, both FXII-driven coagulation and the ability of C1-esterase inhibitor to bind and inhibit activated FXII were not affected by the mutation. Intravital laser-scanning microscopy revealed that, compared with control animals, both F12-/- mice reconstituted with recombinant mutant forms of FXII and humanized HAEIII mouse models with inducible liver-specific expression of Thr309Lys-mutated FXII exhibited increased contact-driven microvascular leakage. An FXII-neutralizing antibody abolished bradykinin generation in HAEIII patient plasma and blunted edema in HAEIII mice. Together, the results of this study characterize the mechanism of HAEIII and establish FXII inhibition as a potential therapeutic strategy to interfere with excessive vascular leakage in HAEIII and potentially alleviate edema due to other causes.