Your search keyword '"Diana Karpman"' showing total 3 results

1. Factor B Mutation in Monozygotic Twins Discordant for Atypical Hemolytic Uremic Syndrome

Author

Sigridur Sunna Aradottir, Ann-Charlotte Kristoffersson, Brynjar O. Jensson, Patrick Sulem, Henning Gong, Runolfur Palsson, and Diana Karpman

Subjects

atypical hemolytic uremic syndrome, complement, Factor B, genetics, monozygotic twins, Diseases of the genitourinary system. Urology, RC870-923

Published

2023

2. Blockade of the kallikrein-kinin system reduces endothelial complement activation in vascular inflammationResearch in context

Author

Ingrid Lopatko Fagerström, Anne-lie Ståhl, Maria Mossberg, Ramesh Tati, Ann-Charlotte Kristoffersson, Robin Kahn, Jean-Loup Bascands, Julie Klein, Joost P. Schanstra, Mårten Segelmark, and Diana Karpman

Subjects

Medicine, Medicine (General), R5-920

Abstract

Background: The complement and kallikrein-kinin systems (KKS) are activated during vascular inflammation. The aim of this study was to investigate if blockade of the KKS can affect complement activation on the endothelium during inflammation. Methods: Complement deposition on endothelial microvesicles was assayed in vasculitis patient plasma samples and controls. Plasma was perfused over glomerular endothelial cells and complement deposition assayed by flow cytometry. The effect of the kinin system was assessed using kinin receptor antagonists and C1-inhibitor. The in vivo effect was assessed in kidney sections from mice with nephrotoxic serum-induced glomerulonephritis treated with a kinin receptor antagonist. Findings: Vasculitis patient plasma had significantly more C3- and C9-positive endothelial microvesicles than controls. Perfusion of patient acute-phase plasma samples over glomerular endothelial cells induced the release of significantly more complement-positive microvesicles, in comparison to remission or control plasma. Complement activation on endothelial microvesicles was reduced by kinin B1- and B2-receptor antagonists or by C1-inhibitor (the main inhibitor of the classical pathway and the KKS). Likewise, perfusion of glomerular endothelial cells with C1-inhibitor-depleted plasma induced the release of complement-positive microvesicles, which was significantly reduced by kinin-receptor antagonists or C1-inhibitor. Mice with nephrotoxic serum-induced glomerulonephritis exhibited significantly reduced glomerular C3 deposition when treated with a B1-receptor antagonist. Interpretation: Excessive complement deposition on the endothelium will promote endothelial injury and the release of endothelial microvesicles. This study demonstrates that blockade of the KKS can reduce complement activation and thereby the inflammatory response on the endothelium. Funding: Full details are provided in the Acknowledgements/Funding section. Keywords: Vasculitis, Endothelial microvesicles, Complement, Kinin, Kidney, Mouse

Published

2019

3. Neutrophil Protease Cleavage of Von Willebrand Factor in Glomeruli – An Anti-thrombotic Mechanism in the Kidney

Author

Ramesh Tati, Ann-Charlotte Kristoffersson, Minola Manea Hedström, Matthias Mörgelin, Jörgen Wieslander, Cees van Kooten, and Diana Karpman

Subjects

Von Willebrand factor, Glomerular basement membrane, Kidney, Neutrophils, ADAMTS13, Elastase, Medicine, Medicine (General), R5-920

Abstract

Adequate cleavage of von Willebrand factor (VWF) prevents formation of thrombi. ADAMTS13 is the main VWF-cleaving protease and its deficiency results in development of thrombotic microangiopathy. Besides ADAMTS13 other proteases may also possess VWF-cleaving activity, but their physiological importance in preventing thrombus formation is unknown. This study investigated if, and which, proteases could cleave VWF in the glomerulus. The content of the glomerular basement membrane (GBM) was studied as a reflection of processes occurring in the subendothelial glomerular space. VWF was incubated with human GBMs and VWF cleavage was assessed by multimer structure analysis, immunoblotting and mass spectrometry. VWF was cleaved into the smallest multimers by the GBM, which contained ADAMTS13 as well as neutrophil proteases, elastase, proteinase 3 (PR3), cathepsin-G and matrix-metalloproteinase 9. The most potent components of the GBM capable of VWF cleavage were in the serine protease or metalloprotease category, but not ADAMTS13. Neutralization of neutrophil serine proteases inhibited GBM-mediated VWF-cleaving activity, demonstrating a marked contribution of elastase and/or PR3. VWF-platelet strings formed on the surface of primary glomerular endothelial cells, in a perfusion system, were cleaved by both elastase and the GBM, a process blocked by elastase inhibitor. Ultramorphological studies of the human kidney demonstrated neutrophils releasing elastase into the GBM. Neutrophil proteases may contribute to VWF cleavage within the subendothelium, adjacent to the GBM, and thus regulate thrombus size. This anti-thrombotic mechanism would protect the normal kidney during inflammation and could also explain why most patients with ADAMTS13 deficiency do not develop severe kidney failure.

Published

2017