Your search keyword '"Maas, Coen"' showing total 11 results

1. Recombinant human C1 esterase inhibitor as prophylactic treatment in idiopathic non-histaminergic angioedema.

Author

Alizadeh Aghdam M, Hofman ZLM, Meertens M, Lebens A, Hack CE, Knulst AC, Maas C, and Röckmann H

Subjects

Humans, Complement C1 Inhibitor Protein therapeutic use, Esterases, Bradykinin, Complement C1 Inactivator Proteins, Angioedema drug therapy, Angioedema prevention & control, Urticaria, Angioedemas, Hereditary

Published

2022

2. Blood Clotting and the Pathogenesis of Types I and II Hereditary Angioedema

Author

de Maat, Steven, Joseph, Kusumam, Maas, Coen, and Kaplan, Allen P.

Published

2021

3. High occurrence of antihistamine resistance in patients with recurrent idiopathic angioedema

Author

Hofman, Zonne L. M., van West, Nikki, Hack, C. Erik, Knulst, André C., Maas, Coen, and Röckmann, Heike

Published

2019

4. Bradykinin: Inflammatory Product of the Coagulation System

Author

Hofman, Zonne, de Maat, Steven, Hack, C. Erik, and Maas, Coen

Published

2016

5. Plasminogen glycoforms alteration and activation susceptibility associated with the missense variant p.Lys330Glu in HAE‐PLG patients.

Author

Parsopoulou, Faidra, Charignon, Delphine, Tengo, Maud, Psarros, Fotis, Maas, Coen, Gonzalez‐Quevedo, Teresa, Drouet, Christian, Germenis, Anastasios E., and Ghannam, Arije

Subjects

PLASMINOGEN, PROTEIN domains, CHROMOGENIC compounds, MOLECULAR weights, PLASMINOGEN activators

Abstract

Plasminogen glycoforms alteration and activation susceptibility associated with the missense variant p.Lys330Glu in HAE-PLG patients Keywords: angioedema; biologics; biomarkers; genetics EN angioedema biologics biomarkers genetics 1 4 4 07/29/20 20200801 NES 200801 Hereditary angio-oedema (HAE) represents a heterogeneous disease with clinical nondistinguishable phenotypes but more complex underlying genotypes than originally considered. The PLG glycosylation pattern PLG was investigated by anti-plasminogen immunoblot. [Extracted from the article]

Published

2020

6. Evidence for bradykinin release in chronic spontaneous urticaria.

Author

Hofman, Zonne L.M., den Elzen, Mignon T., Kuijpers, Jeffrey, Maat, Steven, Hack, C. Erik, Knulst, André C., Röckmann, Heike, and Maas, Coen

Subjects

PLASMINOGEN activators, URTICARIA, MOLECULAR weights, MAST cells, DISEASE remission

Abstract

Background: Chronic spontaneous urticaria (CSU) is characterized by recurrent itchy weals and/or angioedema and is believed to be driven by mast cell activation. It was shown that excessive mast cell activation during anaphylaxis initiates contact activation, resulting in bradykinin release. Evidence for bradykinin release was never demonstrated in CSU. Objective: To study biomarkers of bradykinin release in CSU. Methods: Plasma samples of CSU patients were collected during routine visits at the outpatient clinic. Cleaved high molecular weight kininogen (cHK) was used as a biomarker for bradykinin release. cHK, factor XIIa‐C1‐inhibitor (FXIIa‐C1‐INH), kallikrein‐C1‐INH, plasmin‐antiplasmin (PAP) complexes and soluble urokinase‐type plasminogen activator receptor (suPAR) levels were determined by ELISA. Clinical data and data on tryptase levels were collected from medical records. cHK levels were compared to previously determined levels in hereditary angioedema (HAE). Results: One hundred seventeen samples from 88 CSU patients and 28 samples from healthy controls were analysed. Median cHK level in CSU was 9.1% (range: 1.4%‐21.5%), significantly increased compared to healthy controls (median 6.0% range: 0%‐19.9%; P =.0005) and comparable to HAE (n = 46, median 10.3%, range 0%‐44.3%, P >.9999). cHK levels normalized in patients during disease remission (median 6.5% range 1.5%‐20.8%) but were not dependent on the presence of angioedema, acute angioedema attacks or response to antihistamines. Surprisingly, cHK levels were inversely correlated to serum tryptase (r = −0.65 P =.0137). C1‐INH complexes and suPAR levels were not elevated in patients compared to healthy controls. PAP‐complex levels in patients were elevated compared to healthy controls but there was no correlation between PAP‐complex and cHK levels. Conclusions: cHK levels are elevated in symptomatic CSU patients compared to healthy controls, indicating increased bradykinin production. Increased cHK levels are not limited to patients with angioedema. Clinical relevance: If elevated bradykinin generation has clinical implications in the pathology of CSU is open to debate. [ABSTRACT FROM AUTHOR]

Published

2020

7. Plasminflammation—An Emerging Pathway to Bradykinin Production.

Author

Maas, Coen

Subjects

BRADYKININ, INFLAMMATORY mediators, THROMBOLYTIC therapy, PLASMIN, PLASMINOGEN, ANGIONEUROTIC edema, PATHOLOGICAL physiology

Abstract

Plasminogen activation is essential for fibrinolysis—the breakdown of fibrin polymers in blood clots. Besides this important function, plasminogen activation participates in a wide variety of inflammatory conditions. One of these conditions is hereditary angioedema (HAE), a rare disease with characteristic attacks of aggressive tissue swelling due to unregulated production and activity of the inflammatory mediator bradykinin. Plasmin was already implicated in this disease decades ago, but a series of recent discoveries have made it clear that plasmin actively contributes to this pathology. Collective evidence points toward an axis in which the plasminogen activation system and the contact system (which produces bradykinin) are mechanistically coupled. This is amongst others supported by findings in subtypes of HAE that are caused by gain-of-function mutations in the genes that respectively encode factor XII or plasminogen, as well as clinical experience with the antifibrinolytic agents in HAE. The concept of a link between plasminogen activation and the contact system helps us to explain the inflammatory side effects of fibrinolytic therapy, presenting as angioedema or tissue edema. Furthermore, these observations motivate the development and characterization of therapeutic agents that disconnect plasminogen activation from bradykinin production. [ABSTRACT FROM AUTHOR]

Published

2019

8. Contact System Activation on Endothelial Cells.

Author

de Maat, Steven, de Groot, Philip G., and Maas, Coen

Subjects

ENDOTHELIAL cells, BLOOD plasma, BLOOD coagulation, HEMOSTASIS, ANGIONEUROTIC edema, PATHOLOGICAL physiology

Abstract

When the contact system assembles and activates on negatively charged surface materials, plasma coagulation rapidly follows. This mechanism is redundant for hemostasis but mediates pathological thrombus formation, as was reported in a multitude of in vivo studies. The epidemiological data are presently scarce to firmly support a role for the contact system in human thrombotic disease, while its physiological function and mode of activation remains mysterious. Besides its role in blood coagulation in vitro, the contact system is responsible for the production of bradykinin. This inflammatory peptide is involved in episodes of pathological tissue swelling in (hereditary) angioedema, but potentially also in the physiological regulation of vascular permeability. A body of evidence indicates that contact system factors are recruited to the surface of activated endothelial cells, where proteins that are locally released can activate them. Furthermore, clinical and biochemical studies indicate that plasmin, the effector enzyme of the fibrinolytic system, can evoke contact system activation. This auxiliary role for plasmin may so far not have been fully appreciated in pathophysiology. To conclude this review, we propose a complementary model for contact system activation on the endothelial cell surface that is initiated by plasmin activity. [ABSTRACT FROM AUTHOR]

Published

2014

9. Zinc-dependent contact system activation induces vascular leakage and hypotension in rodents.

Author

Björkqvist, Jenny, Lecher, Bernd, Maas, Coen, and Renné, Thomas

Subjects

HYPOTENSION, BLOOD-vessel physiology, LABORATORY rodents, ZINC, CONTACT inhibition, ANGIONEUROTIC edema, SERINE proteinases, POLYSACCHARIDES, INFLAMMATORY mediators

Abstract

Contact to polyanions induces autoactivation of the serine protease factor XII that triggers the kallikrei-kinin system. Recent studies indicate that polysaccharide-induced autoactivation of factor XII has a role in allergy-related vascular leakage, and angioedema. Here, we characterize in vivo effects of the synthetic polysaccharide dextran sulfate in human plasma and in rodent models. Minute amounts of high-molecular-weight dextran sulfate-initiated factor XII-autoactivation and triggered formation of the inflammatory mediator bradykinin via plasma kallikrein-mediated cleavage of high-molecular-weight kininogen. High-molecular-weight kininogen fragments, containing the HKH20 sequence in domain D5H, blocked dextran sulfate-initiated bradykinin-generation by depleting plasma Zn2+ ions. Topical application of high molecular weight dextran sulfate increased leakage in murine skin microvessels, in a bradykinin-dependent manner. Intravital laser scanning microscopy showed a greater than two-fold elevated and accelerated fluid extravasation in C1 esterase inhibitor deficient mice that lack the major inhibitor of factor XII, compared to wild-type controls. Intra-arterial infusion of dextran sulfate induced a rapid transient drop in arterial blood pressure in rats and preinjection of kinin B2 receptor antagonists or HKH20 peptide blunted dextran sulfate-triggered hypotensive reactions. The data characterize dextran sulfate as a potent in vivo activator of factor XII with implications for bradykinin-mediated vascular permeability and blood pressure control. [ABSTRACT FROM AUTHOR]

Published

2013

10. Plasmin is a natural trigger for bradykinin production in patients with hereditary angioedema with factor XII mutations.

Author

de Maat, Steven, Björkqvist, Jenny, Suffritti, Chiara, Wiesenekker, Chantal P., Nagtegaal, Willem, Koekman, Arnold, van Dooremalen, Sanne, Pasterkamp, Gerard, de Groot, Philip G., Cicardi, Marco, Renné, Thomas, and Maas, Coen

Abstract

Background Patients with angioedema experience unpredictable attacks of tissue swelling in which bradykinin is implicated. Several distinct mutations in Factor XII (FXII) are associated with hereditary angioedema (HAE) in the presence of normal C1 esterase inhibitor activity (FXII-HAE). The underlying disease mechanisms are unclear, which complicates diagnosis and treatment. Objective We sought to identify the natural trigger for FXII activation, which causes uncontrolled bradykinin production in patients with FXII-HAE. Methods We generated recombinant variants of FXII, representing health and disease, and studied their behavior in functional studies. We investigated bradykinin-forming pathways in blood plasma with newly developed nanobody-based analytic methods. Results We here report that FXII-HAE mutations collectively introduce new sites that are sensitive to enzymatic cleavage by plasmin. These FXII mutants rapidly activate after cleavage by plasmin, escape from inhibition through C1 esterase inhibitor, and elicit excessive bradykinin formation. Furthermore, our findings indicate that plasmin modulates disease activity in patients with FXII-HAE. Finally, we show that soluble lysine analogs attenuate this mechanism, explaining their therapeutic value in patients with HAE. Conclusion Our findings indicate a new pathway for bradykinin formation in patients with HAE, in which FXII is cleaved and activated by plasmin. This should lead to the identification of new markers for diagnosis and targets for treatment. [ABSTRACT FROM AUTHOR]

Published

2016

11. Bradykinin driven inflammation

Author

Hofman, Zonne Liza Michaëla, Hack, Erik, Pasterkamp, Gerard, Maas, Coen, and University Utrecht

Subjects

urticaria, immune system diseases, angioedema, Factor XII, cardiovascular diseases, bradykinin, skin and connective tissue diseases, allergy, hereditary angioedema

Abstract

Bradykinin is an inflammatory peptide that causes a local increase in vascular permeability. We have learned from patients with the disease hereditary angioedema that uncontrolled bradykinin production leads to episodes with swelling of submucosal and subcutaneous tissue. We searched for evidence of bradykinin driven diseases beyond hereditary angioedema as patients with other conditions then HAE may also benefit from therapy developed for this bradykinin driven disorder. We developed an assay to detect bradykinin release and demonstrated its use as compound diagnostic in drug development for hereditary angioedema. We found evidence for increased bradykinin production in patients with chronic spontaneous urticaria and started a pilot study looking for novel treatment options for patients with idiopathic angioedema. We learned that a novel mutation in Factor XII leads to ongoing bradykinin release in a family with autoinflammatory symptoms. By studying this novel Factor XII mutation, we discovered how FXII zymogen quiescence is regulated.

Published

2020