Using six-colour flow cytometry to analyse the activation and interaction of platelets and leukocytes - A new assay suitable for bench and bedside conditions

•Platelet leukocyte complexes are key mediators in thromboinflammatory disorders.•We describe a new flow cytometry assay to analyze platelet leukocyte interaction.•Platelet and leukocyte activation is measured using a six-colour approach.•The sensitivity of the assay after stimulation with various agonists is shown.•The applicability of this assay for bench and bedside analyses is demonstrated.

IntroductionPlatelets are main effector cells in haemostasis and also promote inflammation. Platelet-leukocyte complexes are key mediators in a variety of thromboinflammatory disorders and consecutive organ failure. Cell-specific epitopes and activation markers on platelets and leukocytes can be measured using flow cytometry. However, until recently a major restriction has been a paucity in antibody combinations and lack of detection strategies. We aimed to develop a six-colour flow cytometry method which depicts multiple aspects of platelet and leukocyte interactions in human whole blood.Materials and MethodsPlatelets, including microparticles and aggregates, were detected in flow cytometry using a platelet-specific anti-CD41-FITC antibody and size-defined regions. The morphology of platelet-leukocyte complexes (including granulocyte and monocyte content) were depicted using anti-CD45-PerCP, anti-CD66b-PE-Cy7, and anti-CD14-APC antibodies in a single sample. Expression of platelet and leukocyte activation markers P-selectin and CD11b were detected using anti-CD62P-PE and anti-CD11b-BV421 antibodies, respectively.ResultsThe sensitivity of this assay to detect the effects of various agonists (TRAP-6, ADP, collagen, epinephrine, TNF-α and LPS) is demonstrated. Furthermore, the assay is shown to detect platelet and leukocyte activation induced by extracorporeal circulation in vitro. The suitability of this assay for bedside analysis is demonstrated exemplarily in a patient treated with mechanical circulatory life support.ConclusionsUsing the concurrent assessment of multiple parameters, this method gives detailed insights into the complexity and dynamics of platelet-leukocyte interactions. This assay carries the potential to increase our understanding of the mechanisms and pathophysiology of platelet-leukocyte interaction in the research laboratory and clinical setting.