The pro- and anticoagulant role of blood-borne phagocytes in patients with acute coronary syndrome.

This study was performed to gain further insight in pro- and anticoagulant characteristics of leukocytes in acute coronary syndrome (ACS). For this purpose, patients presenting on the emergency department (ED) with anginal chest pain were included in this study. In peripheral blood, procoagulant tissue factor (TF) expression was measured in the different blood-borne phagocytes, i.e. neutrophilic granulocytes and the three different monocyte subsets based on expression of CD14 and CD16. Simultaneously, intracellular presence of platelet-(CD41) and/or endothelial cell-remnants (CD62e) was analysed in these different leukocyte subsets. Neutrophils showed a weak intracellular staining of CD62e and CD41 that increased with severity of ACS. Monocytes, and especially the classical (CD14++CD16-) and intermediate monocytes (CD14++CD16+) showed a clear and significant increase in intracellular CD41-staining after coronary damage. The different monocyte subsets showed an increase in expression of TF in severe ACS. Finally, it appeared that also neutrophils showed a significant increase in expression of TF on their membrane. In conclusion, this study showed an increased intracellular staining in blood-borne phagocytes for CD62e and CD41 in patients with ACS compared to non-cardiac related control patients. This indicates that at least in the acute phase of ACS phagocytosis of platelet and endothelial cell-remnants is increased. These data support the recent hypothesis that neutrophils protect against further thrombotic processes by clearing platelet and endothelial cell-remnants. In addition, this study shows that the different monocyte subsets are also involved in this process. Furthermore, both monocytes and neutrophils show increased TF expression in ACS.

A novel multiparameter flow cytometric assay for inosine triphosphatase expression analysis in leukocytes.

The aim of this study was to assess inosine triphosphate (ITPase) expression in the different leukocyte populations present in peripheral blood samples of a nonimmune compromised control group. For this purpose, a multiparameter flow cytometric assay was developed and performed to study ITPase expression in peripheral leukocyte subpopulations of healthy volunteers (n = 20). Qualitative ITPase expression was assessed by determining the percentage of ITPase-positive cells. Quantitative data were obtained by measuring the median fluorescent intensity (MFI). Subcellular localization of ITPase was analyzed using immunocytochemistry. Immunocytochemistry showed that ITPase is present in all leukocytes and localized intracellular. Based on this finding, a multiparameter flow cytometric assay was developed using a Fix & Perm strategy. Qualitative and quantitative ITPase expression remained stable (variation, <10%) for at least 48 h after blood sampling. MFI values showed that activated monocytes contained significantly more ITPase when compared to the total monocyte fraction (P < 0.0001), which subsequently had a higher amount of expression than granulocytes (P < 0.0001). In addition, the phagocyte subpopulations ([activated] monocytes and granulocytes) contained significantly higher levels of ITPase when compared to lymphocytes (P < 0.0001). Within the lymphocyte fraction, it appeared that T-helper cells contained significantly higher ITPase levels when compared to cytotoxic T cells, B lymphocytes, and natural killer cells (P < 0.0001). Our study is the first which describes a flow cytometry assay to analyze ITPase expression in leukocytes qualitatively as well as quantitatively and visualizes the intracellular localization of ITPase in leukocytes. © 2012 International Society for Advancement of Cytometry.