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1.
Cells ; 12(6)2023 03 09.
Article in English | MEDLINE | ID: mdl-36980191

ABSTRACT

Mesenchymal stromal cells (MSCs) have the potential to suppress pathological activation of immune cells and have therefore been considered for the treatment of Graft-versus-Host-Disease. The clinical application of MSCs requires a process validation to ensure consistent quality. A flow cytometry-based mixed lymphocyte reaction (MLR) was developed to analyse the inhibitory effect of MSCs on T cell proliferation. Monoclonal antibodies were used to stimulate T cell expansion and determine the effect of MSCs after four days of co-culture based on proliferation tracking with the violet proliferation dye VPD450. Following the guidelines of the International Council for Harmonisation (ICH) Q2 (R1), the performance of n = 30 peripheral blood mononuclear cell (PBMC) donor pairs was assessed. The specific inhibition of T cells by viable MSCs was determined and precision values of <10% variation for repeatability and <15% for intermediate precision were found. Compared to a non-compendial reference method, a linear correlation of r = 0.9021 was shown. Serial dilution experiments demonstrated a linear range for PBMC:MSC ratios from 1:1 to 1:0.01. The assay was unaffected by PBMC inter-donor variability. In conclusion, the presented MLR can be used as part of quality control tests for the validation of MSCs as a clinical product.


Subject(s)
Flow Cytometry , Graft vs Host Disease , Lymphocyte Culture Test, Mixed , Mesenchymal Stem Cells , Lymphocyte Culture Test, Mixed/methods , Humans , Mesenchymal Stem Cells/cytology , Leukocytes, Mononuclear/cytology , Quality Control , Flow Cytometry/methods , Flow Cytometry/standards , T-Lymphocytes/cytology , Cell Proliferation , Graft vs Host Disease/therapy
2.
Blood Adv ; 2(18): 2347-2357, 2018 09 25.
Article in English | MEDLINE | ID: mdl-30237293

ABSTRACT

The dynamic change from a globular conformation to an elongated fiber determines the ability of von Willebrand factor (VWF) to trap platelets. Fiber formation is favored by the anchorage of VWF to the endothelial cell surface, and VWF-platelet aggregates on the endothelium contribute to inflammation, infection, and tumor progression. Although P-selectin and ανß3-integrins may bind VWF, their precise role is unclear, and additional binding partners have been proposed. In the present study, we evaluated whether the endothelial glycocalyx anchors VWF fibers to the endothelium. Using microfluidic experiments, we showed that stabilization of the endothelial glycocalyx by chitosan oligosaccharides or overexpression of syndecan-1 (SDC-1) significantly supports the binding of VWF fibers to endothelial cells. Heparinase-mediated degradation or impaired synthesis of heparan sulfate (HS), a major component of the endothelial glycocalyx, reduces VWF fiber-dependent platelet recruitment. Molecular interaction studies using flow cytometry and live-cell fluorescence microscopy provided further evidence that VWF binds to HS linked to SDC-1. In a murine melanoma model, we found that protection of the endothelial glycocalyx through the silencing of heparanase increases the number of VWF fibers attached to the wall of tumor blood vessels. In conclusion, we identified HS chains as a relevant binding factor for VWF fibers at the endothelial cell surface in vitro and in vivo.


Subject(s)
Endothelial Cells/metabolism , Endothelium, Vascular/metabolism , Glycocalyx/metabolism , von Willebrand Factor/metabolism , Animals , Blood Platelets/metabolism , Female , Gene Expression , Humans , Mice , Platelet Adhesiveness , Protein Binding , Protein Transport , Syndecan-1/metabolism
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