Severe high-molecular-weight kininogen deficiency due to a homozygous c.1456C > T nonsense variant in a large Chinese family.

High-molecular-weight kininogen (HMWK) deficiency is a very rare hereditary disorder caused by a defect of Kininogen-1 gene (KGN1). A 67-year-old asymptomatic male with an isolated prolonged activated partial thromboplastin time (aPTT) was recognized to have HMWK deficiency. The propositus had less than 1% HMWK procoagulant activity. The plasma HMWK procoagulant activities of his 2 younger sisters were 1.1% and less than 1%, respectively. Prekallikrein (PK) activity was also reduced in the propositus and two of his younger sisters with severe HMWK deficiency. Genetic testing to identify the KGN1 mutation provides a precise diagnosis for the patient and other family members. This Chinese family has a novel KGN1 nonsense variant, C to T, at nucleotide position 1456 leading to a stop codon in position 486 (p. Gln486*).

A novel frameshift mutation in exon 4 causing a deficiency of high-molecular-weight kininogen in a patient with splenic infarction.

High-molecular-weight kininogen (HMWK) deficiency is a very rare hereditary disorder. We herein report a case of HMWK deficiency with splenic infarction. The HMWK activity of the proband was markedly decreased (0.9%). Direct sequencing of his HMWK gene showed a homozygous "TC" insertion at c523-524 in exon 4. This insertion led to an amino acid substitution, Ser175Ser, resulting in a frameshift mutation and a premature stop codon in amino acid 183. Furthermore, the HMWK activity was also reduced in the patient's three children, who exhibited the heterozygous "TC" insertion at c523-524 in exon 4. This is the first report of this gene alteration in a patient with HMWK deficiency.

Contact factor deficiencies and cardiopulmonary bypass surgery: detection of the defect and monitoring of heparin.

Contact factor pathway deficiencies do not cause surgical bleeding but make heparin monitoring by the activated partial thromboplastin time (APTT) and activated clotting time (ACT) unreliable. Heparin monitoring during cardiopulmonary bypass (CPB) surgery in these patients is particularly challenging. Here we describe heparin monitoring during CPB using the chromogenic anti Xa assay in two patients with severe factor XII deficiency (FXII < 0.01 U/mL) and one patient with severe prekallikrein (PK) deficiency (PK < 0.01 U/mL). Anti Xa levels of the three patients during CPB varied between 3.8 and 4.8 U/mL in keeping with a control group (mean anti Xa 4.5 U/mL and ACT > 480 s). There were no bleeding or thrombotic complications. We also found that detection of severe PK deficiency by the APTT in the PK deficient patient was dependent on the reagent used and discuss the sensitivity of different APTT reagents for contact factor deficiencies. We conclude that the sensitivity of APTT methods for contact pathway deficiencies is highly variable and although insensitivity is not a clinical problem in terms of bleeding, it can be a cause of discrepancy between different APTT reagents and the ACT. This can lead to confusion about a possible haemorrhagic tendency and delays in surgery. If these patients need to undergo cardiac surgery requiring high dose heparin treatment, monitoring by chromogenic anti Xa assay is a good alternative.

El kininógeno de alto peso molecular: su participación en la respuesta inflamatoria y en la angiogénesis. Propiedades y posible aplicación terapéutica / High molecular weight kininogen in inflammation and angiogenesis: a review of its properties and therapeutic applications

The plasma kallikrein-kinin system (KKS) participates in the pathogenesis of inflammatory reactions involved in cellular injury, coagulation, fibrinolysis, kinin formation, complement activation, cytokine secretion and release of proteases. It has been shown that KKS activation in the systemic inflammatory response syndrome results in decrease of its component plasma proteins. Similar changes have been documented in diabetes, sepsis, children with vasculitis, allograft rejection, disseminated intravascular coagulation, patients with recurrent pregnancy losses, hereditary angioedema, adult respiratory distress syndrome and coronary artery disease. Direct involvement of the KKS in the pathogenesis of experimental acute arthritis and acute and chronic enterocolitis has been documented by previous studies from our laboratory using experimental animal models. It has been found that in HK deficient Lewis rats, experimental IBD was much less severe. We showed a genetic difference in kininogen structure between resistant Buffalo and susceptible Lewis rats, which results in accelerated cleavage of HK and it is responsible for the susceptibility to the inflammatory process in the Lewis rats. It has been demostrated that therapy with a specific plasma kallikrein inhibitor (P8720) modulated the experimental enterocolitis, arthritis and systemic inflammation. Furthermore, it has been shown that a bradykinin 2 receptor (B2R) antagonist attenuates the inflammatory changes in the same animal model. We have showed that a monoclonal antibody targeting HK decreases angiogénesis and arrests tumor growth in a syngeneic animal model. In summary, these results indicate that the plasma KKS plays a central role in the pathogenesis of chronic intestinal inflammation, arthritis and angiogenesis.

Se ha demostrado la participación del sistema plasmático de kalikreína-kininas (KKS) en el proceso inflamatorio, el cual incluye reacciones de daño celular, coagulación y fibrinólisis, formación de kininas, activación del complemento, secreción de citoquinas y liberación de proteasas. El KKS se encuentra activado en el síndrome de respuesta inflamatoria sistémica con una disminución en la concentración plasmática de las proteínas que lo constituyen. También se ha demostrado una activación similar en la diabetes, choque séptico, vasculitis en infantes, enfermedad injerto-huésped, coagulación intravascular diseminada, pacientes con abortos de repetición, angioedema hereditario, el síndrome de estrés respiratorio del adulto y enfermedad coronaria arterial. Mediante el uso de modelos animales experimentales, nuestro laboratorio ha demostrado una participación directa del KKS en la patogénesis de la artritis experimental aguda y la enterocolitis aguda y crónica. Se ha demostrado que en la rata tipo Lewis, cuando es deficiente de kininógeno de alto peso molecular (HK), la enfermedad inflamatoria intestinal es menos severa comparada con la presentada en ratas con niveles normales de HK como la Buffalo. Nosotros mostramos una diferencia entre el gene que codifica la molécula del kininógeno de la rata tipo Buffalo (resistentes) y Lewis (susceptibles), que resulta en un incremento de la actividad proteolítica de kalikreína sobre su substrato HK, lo cual predispone a las ratas Lewis al desarrollo de la enfermedad inflamatoria crónica. Se ha demostrado una disminución en las manifestaciones inflamatorias sistémicas de la enterocolitis y artritis experimental mediante el uso de un inhibidor específico de la kalikreína (P8720). Además, el antagonista del receptor 2 de la bradikinina (BR2) atenuó los cambios inflamatorios en el mismo modelo animal. Asimismo, se ha demostrado que las ratas Lewis deficientes de kininógeno desarrollaron inflamación intestinal sistémica menos severa. Mediante el uso del anticuerpo monoclonal C11C1 contra HK se logró una disminución de la angiogenesis y, consecuentemente, el crecimiento tumoral. En conclusión, los resultados demuestran que el sistema plasmático de KKS desempeña un papel preponderante en la patogénesis de la artritis reumatoide, la enfermedad intestinal crónica y en el proceso angiogénico.

Modulation of inflammation by kininogen deficiency in a rat model of inflammatory arthritis.

OBJECTIVE: To compare inflammatory peripheral arthritis in wild-type and high molecular weight kininogen (HK)-deficient rats, both on the genetically susceptible Lewis background. METHODS: By backcrossing Brown-Norway HK-deficient rats with Lewis rats for 6 generations, 2 new strains were produced, wild-type F6 and HK-deficient F6, each with a 98.5% Lewis genome. Inflammatory arthritis was induced by intraperitoneal injection of peptidoglycan-polysaccharide (PG-PS), and the clinical, histopathologic, and biochemical responses were compared in both strains. RESULTS: Eighteen days after PG-PS injection, rats with normal concentrations of HK showed weight loss and marked increase in hind ankle diameter with severe synovial inflammation and cartilage abnormalities. In contrast, HK-deficient rats showed no weight loss (P < 0.05), no increase in hind ankle diameter (P < 0.05), and an absence of inflammatory changes (P < 0.05), as measured by the histologic and morphometric Mankin grading system for synovial and cartilage injury. CONCLUSION: Plasma HK is a key mediator of acute and chronic inflammatory arthritis in genetically susceptible Lewis rats.

[High molecular weight kininogen in inflammation and angiogenesis: a review of its properties and therapeutic applications]. / El kininógeno de alto peso molecular: su participación en la respuesta inflamatoria y en la angiogénesis. Propiedades y posible aplicación terapéutica.

The plasma kallikrein-kinin system (KKS) participates in the pathogenesis of inflammatory reactions involved in cellular injury, coagulation, fibrinolysis, kinin formation, complement activation, cytokine secretion and release of proteases. It has been shown that KKS activation in the systemic inflammatory response syndrome results in decrease of its component plasma proteins. Similar changes have been documented in diabetes, sepsis, children with vasculitis, allograft rejection, disseminated intravascular coagulation, patients with recurrent pregnancy losses, hereditary angioedema, adult respiratory distress syndrome and coronary artery disease. Direct involvement of the KKS in the pathogenesis of experimental acute arthritis and acute and chronic enterocolitis has been documented by previous studies from our laboratory using experimental animal models. It has been found that in HK deficient Lewis rats, experimental IBD was much less severe. We showed a genetic difference in kininogen structure between resistant Buffalo and susceptible Lewis rats, which results in accelerated cleavage of HK and it is responsible for the susceptibility to the inflammatory process in the Lewis rats. It has been demostrated that therapy with a specific plasma kallikrein inhibitor (P8720) modulated the experimental enterocolitis, arthritis and systemic inflammation. Furthermore, it has been shown that a bradykinin 2 receptor (B2R) antagonist attenuates the inflammatory changes in the same animal model. We have showed that a monoclonal antibody targeting HK decreases angiogenesis and arrests tumor growth in a syngeneic animal model. In summary, these results indicate that the plasma KKS plays a central role in the pathogenesis of chronic intestinal inflammation, arthritis and angiogenesis.

Characterization of molecular defects of Fitzgerald trait and another novel high-molecular-weight kininogen-deficient patient: insights into structural requirements for kininogen expression.

A 6-year-old male with vertebral-basilar artery thrombosis was recognized to have high-molecular-weight kininogen (HK) deficiency. The propositus had no HK procoagulant activity and antigen (< 1%). Using monoclonal antibodies (Mabs) to kininogen domain 3, the propositus, family members, and Fitzgerald plasma were determined to have detectable low-molecular-weight kininogen. Mabs to HK domains 5 and 6 do not detect HK antigen in the propositus' plasma. The propositus has a single base pair (bp) deletion in cDNA position 1492 of exon 10 affecting amino acid 480 of the mature protein and resulting in a frameshift and a premature stop codon at position 1597 (amino acid 532). Unexpectedly, Mabs to the heavy chain and domain 5 of HK detect a 92-kDa form of HK in Fitzgerald plasma, the first HK-deficient plasma. The 92-kDa Fitzgerald HK has amino acid residues through 502, corresponding to domains 1 through 5, but lacks epitopes of domain 6 (positions 543 to 595). Fitzgerald DNA has a normal exon 10, but a 17-bp mutation in intron 9. These combined results indicate that mutations in the kininogen gene may differentially affect biosynthesis, processing, and/or secretion of HK.

Chronic intestinal inflammation and angiogenesis in genetically susceptible rats is modulated by kininogen deficiency.

Genetically susceptible Lewis rats injected in the intestinal wall with peptidoglycan-polysaccharide (PG-APS) polymers develop chronic granulomatous enterocolitis associated with activation of the kallikrein-kinin system. To elucidate the role of high-molecular-weight kininogen (HK), we backcrossed Brown Norway rats having an HK deficiency with Lewis rats for five generations. Two new strains were produced, wild-type F5 (F5WT) and HK deficient (F5HKd), each with a approximately 97% Lewis genome. The HK values of F5WT rat plasma and F5HKd rat plasma were 0.62 +/- 0.20 and 0.08 +/- 0.03 U/ml, respectively. Among the inflammatory changes, the mean gross gut, total intestinal histologic and liver granuloma score and the white blood count were significantly lower in the F5HKd than the F5WT rats. Plasma T-kininogen was significantly less in F5HKd. Angiogenesis (mean vascular density) in the cecum was decreased significantly in F5HKd compared to F5WT. These results indicate the importance of the kallikrein-kinin system in this model of chronic enterocolitis and systemic inflammation.

The contact system.

OBJECTIVES: To review the literature for conditions, diseases, and disorders that affect activity of the contact factors, and further to review the literature for evidence that less than normal activity of any of the contact factors may be associated with thrombophilia. DATA SOURCES: MEDLINE search for English-language articles published from 1988 to 2001 and pertinent references contained therein, as well as search of references in recent relevant articles and reviews. STUDY SELECTION: Relevant clinical and laboratory information was extracted from selected articles. Meta-analysis was not feasible because of heterogeneity of reports. DATA EXTRACTION AND SYNTHESIS: Evidence for association of altered levels of the contact factors and thrombophilia was sought. A wide variety of disorders is associated with decreased activity of the contact factors; chief among these disorders are liver disease, hepatic immaturity of newborns, the antiphospholipid syndrome, and, for factor XII, being of Asian descent. These disorders are more common than homozygous deficiency. The few series and case reports of thrombophilic events in patients homozygous for deficiency of contact factors are not persuasive enough to support causality. The apparent association between levels consistent with heterozygosity (40%-60% of normal) of any of the contact factors (but especially factor XII) in persons with antiphospholipid antibodies appears to be due to falsely decreased in vitro activity levels of these factors, which are normal on antigenic testing. The apparent association with thrombosis is better explained by the antiphospholipid syndrome than by the modest reduction of the levels of contact factors. CONCLUSIONS: Presently, it is not recommended to measure activity of contact factors during routine evaluation of patients who have suffered venous or arterial thromboembolism or acute coronary syndromes.

Kininogen deficiency modulates chronic intestinal inflammation in genetically susceptible rats.

Genetically susceptible Lewis rats injected in the intestinal wall with peptidoglycan-polysaccharide (PG-APS) polymers develop chronic granulomatous enterocolitis concomitant with activation of the kallikrein-kinin system. To elucidate the role of high-molecular-weight kininogen (HK) in chronic enterocolitis, we back crossed Brown-Norway rats having a HK deficiency with Lewis rats for five generations. Two new strains were produced, wild-type F5 (F5WT) and HK deficient (F5HKd), each with a approximately 97% Lewis genome. The HK values of F5WT and F5HKd rat plasma were 0.62 +/- 0.20 and 0.08 +/- 0.03 U/ml, respectively. In PG-APS-injected rats, chronic inflammation was measured by using gross gut score, histological inflammation, liver granuloma, and white blood cell count. The mean gross gut scores were significantly lower in the F5HKd than in the F5WT rats. Plasma T-kininogen was significantly less in F5HKd. These results indicate the importance of the kallikrein-kinin system in this model of chronic enterocolitis and systemic inflammation.

High molecular weight kininogen deficiency: a patient who underwent cardiac surgery.

A 66 year old male, referred for cardiac surgery, was found to have high molecular weight kininogen deficiency (activity <1%). Apart from activated partial thromboplastin time (APTT) >300 s, tests of haemostasis were otherwise normal (factors VIII, IX, XI, XII and prekallikrein). No inhibitor of coagulation was found. The activated coagulation time (ACT) was 800 s pre-operatively and >1000 s after heparin. Heparin levels were measured directly by an anti-Xa chromogenic assay, with values of between 2.9 and 3.2 u/ml during cardiopulmonary bypass. Thrombin-antithrombin levels rose from 2.3*g/l before surgery to a peak of 83.5*g/l at the end of cardiopulmonary bypass. Cross linked fibrin d-dimers (XDP) levels rose from 100 ng/ml before operation to 600 ng/ml after protamine administration. The patient had no excess bleeding and no thrombotic complications from surgery. This patient shows that high molecular weight kininogen is not required for thrombin formation or fibrinolysis during cardiac surgery and illustrates the need to measure heparin directly in patients with such contact factor deficiencies.

Adsorption from plasma and buffer of single- and two-chain high molecular weight kininogen to glass and sulfonated polyurethane surfaces.

The adsorption of high molecular weight kininogen (HK) in its single-chain (SCHK) and two-chain (TCHK) forms from single protein solutions, plasma, and kininogen-deficient plasma, to glass and sulfonated polyurethane surfaces is reported. Using radiolabelling methods, it was found that in a single protein buffered system there was no difference in the adsorbed amounts of SCHK and TCHK over the concentration range 5-100 microg ml(-1) (similar to that in plasma). The adsorption of the two forms from normal plasma was also the same. However, immunoblots using an anti-HK antibody indicated that over the 2 h adsorption time, much of the SCHK present in the plasma was converted to TCHK: the band at 120 kD representative of intact SCHK disappeared, and bands at 56 and 46 kD representative of the heavy and light chains of TCHK were generated. To prevent conversion of SCHK to TCHK, the kallikrein inhibitor aprotinin (or in some cases a protease inhibitor cocktail), was added to the plasma in subsequent experiments. In addition, kininogen-deficient plasma was used (with either labelled SCHK or TCHK added) to avoid ambiguity in the tracer-population relationship. It was again found that there was no difference in the amounts of SCHK and TCHK adsorbed to glass and the sulfonated polyurethanes. The significance of these findings in relation to the reported anti-cell adhesion properties of adsorbed HK is discussed.