Eric Lahrsen scite author profile

The serpin C1 inhibitor (C1-INH) is the only regulator of classical complement activation as well as the major regulator of the contact system. Its importance is demonstrated by hereditary angioedema (HAE), a severe disease with potentially life-threatening attacks due to deficiency or dysfunction of C1-INH. C1-INH replacement is the therapy of choice in HAE. In addition, C1-INH showed to have beneficial effects in other diseases characterized by inappropriate complement and contact system activation. Due to some limitations of its clinical application, there is a need for improving the efficacy of therapeutically applied C1-INH or to enhance the activity of endogenous C1-INH. Given the known potentiating effect of heparin on C1-INH, sulfated glycans (SG) may be such candidates. The aim of this study was to characterize suitable SG by evaluating structure-activity relationships. For this, more than 40 structurally distinct SG were examined for their effects on C1-INH, C1s and FXIIa. The SG turned out to potentiate the C1s inhibition by C1-INH without any direct influence on C1s. Their potentiating activity proved to depend on their degree of sulfation, molecular mass as well as glycan structure. In contrast, the SG had no effect on the FXIIa inhibition by C1-INH, but structure-dependently modulated the activity of FXIIa. Among the tested SG, β-1,3-glucan sulfates with a Mr ≤ 10 000 were identified as most promising lead candidates for the development of a glycan-based C1-INH amplifier. In conclusion, the obtained information on structural characteristics of SG favoring C1-INH potentiation represent an useful elementary basis for the development of compounds improving the potency of C1-INH in diseases and clinical situations characterized by inappropriate activation of complement and contact system.

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Degradation of Eight Sulfated Polysaccharides Extracted from Red and Brown Algae and Its Impact on Structure and Pharmacological Activities

Lahrsen

Schoenfeld

Alban

2019

ACS Biomater. Sci. Eng.

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Degradation represents a strategy to improve the biopharmaceutical properties of native algae sulfated polysaccharides (SP) with high M w. The aim of this study was to compare the degradability of four sulfated xylogalactans (SXG) and four fucose-rich sulfated polysaccharides (FRSP) extracted from red and brown algae, respectively, using three simple methods causing no desulfation as well as to examine the chemical and pharmacological changes of the resulting fractions. The achieved degradation proved to be dependent on the basic glycan structure of the SP. Treatment with hydrogen peroxide (3%, 4 h, 50 °C) led to the most efficient degradation of both FRSP and SXG. The M w decrease was associated with distinct reduction of the activities (complement inhibition (>) elastase inhibition > C1-INH potentiation) and resulted in a modified pharmacological profile. Despite their much lower degree of sulfation, some of the fractions with M w < 15 kDa exhibited similar or even stronger activities than heparins, whereas they had only weak anticoagulant effects.

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Degraded fucoidan fractions and β-1,3-glucan sulfates inhibit CXCL12-induced Erk1/2 activation and chemotaxis in Burkitt lymphoma cells

Techel

Lahrsen

Alban

2020

International Journal of Biological Macromolecules

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Eric Lahrsen

Gradual degradation of fucoidan from Fucus vesiculosus and its effect on structure, antioxidant and antiproliferative activities

Size-dependent pharmacological activities of differently degraded fucoidan fractions from Fucus vesiculosus

Regulation of Complement and Contact System Activation via C1 Inhibitor Potentiation and Factor XIIa Activity Modulation by Sulfated Glycans – Structure-Activity Relationships

Degradation of Eight Sulfated Polysaccharides Extracted from Red and Brown Algae and Its Impact on Structure and Pharmacological Activities

Degraded fucoidan fractions and β-1,3-glucan sulfates inhibit CXCL12-induced Erk1/2 activation and chemotaxis in Burkitt lymphoma cells

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