膨胀显微镜可定量分析血小板聚集的结构组织特征

Emma L Faulkner, Jeremy A Pike, Evelyn Garlick, Robert K Neely, Iain B Styles, Stephen P Watson, Natalie S Poulter, Steven G Thomas
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引用次数: 0

摘要

目前应用于止血和血栓形成情况下血小板聚集的显微镜方法表明,其结构对有效止血和血栓形成的临床治疗具有重要意义。然而,目前的荧光显微镜方法无法对血小板聚集体结构进行体积成像。这主要是由于单个血小板的尺寸较小,而且血小板在聚集体中紧密堆积,导致光学不透明。在这里,我们证明了将膨胀显微镜应用于血小板聚集体,可以揭示血小板聚集体结构的多尺度信息。我们以纳米级分辨率制作了正常和受干扰条件下 700 个血小板聚集体的体积图像,并对细胞骨架和膜成分进行了染色。我们展示了我们的定制分析工作流程,可定量描述整个血小板聚集体内的血小板数量、体积和形态。此外,我们还定量描述了 F-肌动蛋白的亚细胞组织。通过比较使用肌动蛋白抑制剂细胞松弛素 D 和 latrunculin A 处理后的这些测量结果,我们可以稳健地检测血小板聚集体的结构破坏情况。这些数据为定性和定量描述血小板聚集体结构提供了一个工作流程(从整个聚集体到单个血小板内的亚细胞特征)。
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Expansion microscopy allows quantitative characterisation of structural organisation of platelet aggregates
Current microscopy approaches applied to platelet aggregates in both haemostatic and thrombotic settings indicate their structure has important implications in efficient haemostasis and in clinical treatment of thrombosis. However, current fluorescence microscopy approaches are not amenable to volumetric imaging of platelet aggregate structures. This is largely due to the small size of individual platelets and the tight packing of platelets within aggregates, resulting in optical opacity. Here we demonstrate that expansion microscopy, applied to platelet aggregates, can reveal multi-scale information about the structure of platelet aggregates. We produced volumetric images at nanoscale resolution of >700 platelet aggregates under normal and perturbed conditions, stained for cytoskeletal and membrane components. We demonstrate our custom analysis workflow provides quantitative description of platelet numbers, volumes and morphology within entire platelet aggregates. Additionally, we quantitatively describe subcellular organisation of F-actin. By comparing these measurements following treatment with the actin inhibitors, cytochalasin D and latrunculin A, we can robustly detect structural disruptions in platelet aggregates. Together these data provide a workflow to qualitatively and quantitatively describe the architecture of platelet aggregates at a range of scales (whole aggregates down to sub-cellular features within individual platelets).
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