Ultrastructure analysis of immature platelets is difficult because of the lack of a suitable marker and their relatively low concentration in total platelets. We investigated the morphological and optical properties of human immature platelets produced and enriched in immunodeficient mice via human CD34-positive cell administration. Immunodeficient mice were injected with human CD34-positive cells and administered eltrombopag orally for 14 days (eltro-mice). Some of these mice were maintained for 2-3 months (steady-state-mice). Platelets were double-stained with a human CD41 antibody and a nuclear staining dye (Sysmex hematology analyzer XN series reagent), and then analyzed by flowcytometry FCM to identify human immature platelets. Human CD41-positive cells were isolated from citrated blood by magnetic cell sorting with human CD41 antibody, and examined using electron microscopy. Flow cytometric analysis with the XN reagent demonstrated that peripheral blood from eltro-mice had a higher percentage of immature platelet fraction in human platelets than that from steady-state-mice. The geometric mean of XN reagent fluorescence for human platelets, divided with that for mouse platelets, revealed that the ratios in eltro-mice were significantly higher than those in steady-state-mice, thus indicating that immature platelets were highly enriched in eltro-mice. Scanning and transmission electron microscopy revealed that human citrated platelets isolated from eltro-mice tended to be larger (n = 15, p = 0.276) and contained more mitochondria than those isolated from steady-state-mice (n = 10, p = 0.0002). Therefore, an increased number of mitochondria, rather than platelet size, is a distinctive feature of immature platelets.
Objective Reactive oxygen species (ROS) production by neutrophils induces pulmonary endothelial cell damage and results in acute lung injury (ALI). We previously reported that deferasirox (DFS), an iron-chelating agent, inhibits the ROS production and neutrophil extracellular trap (NET) formation induced by phorbol myristate acetate and formylmethionylleucylphenylalanine in vitro. In the present study, we investigated the effects of DFS in vivo using a mouse model of lipopolysaccharide (LPS)-induced ALI. Methods After DFS administration for 7 days, ALI was induced in mice by LPS via intratracheal administration. Results LPS treatment induced neutrophil invasion in the lung tissues, along with NET formation and a significant increase in the quantity of double-stranded DNA in the bronchoalveolar lavage fluid, while pre-administered DFS inhibited these phenomena. However, alteration of neutrophil morphology in the cytoplasm in terms of shape and vacuolization was not inhibited by the pre-administration of DFS, possibly through ROS production. Conclusions DFS suppressed neutrophil invasion into lung tissues and reduced the double-stranded DNA content released by the neutrophils. These results suggest that DFS can potentially be used to prevent diseases related to neutrophil activation including ALI, thrombosis, and vascular endothelial dysfunction.
Eosinophils possess highly electron-dense granules with crystal-like structures and are characterized as high side scatter (SSC) areas by flow cytometry analysis. Eosinophils with low SSC features have been noted in extremely rare cases; however, the underlying cause remains unclear. Eosinophils in the low SSC area were analyzed using microscopy. Transmission electron microscope (TEM) revealed that the loss of crystal-like structures in granules with low electron density and piecemeal degranulation (PMD), which was undetectable by May-Grünwald-Giemsa staining. Based on the results of flow cytometry, May-Grünwald-Giemsa staining and TEM, SSC values could help potentially detect crystal-like structures and PMD eosinophils.
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