Division of Hematology, Brigham and Women's Hospital, Department of Medicine, Harvard Medical School, Boston, MA.
Dmitry Rogachev National Medical Research Center of Pediatric Hematology, Oncology and Immunology, Moscow, Russia.
Blood Adv. 2020 Jul 14;4(13):3011-3023. doi: 10.1182/bloodadvances.2020001758.
During inflammation, steady-state hematopoiesis switches to emergency hematopoiesis to repopulate myeloid cells, with a bias toward the megakaryocytic lineage. Soluble inflammatory cues are thought to be largely responsible for these alterations. However, how these plasma factors rapidly alter the bone marrow (BM) is not understood. Inflammation also drives platelet activation, causing the release of platelet-derived extracellular vesicles (PEVs), which package diverse cargo and reprogram target cells. We hypothesized that PEVs infiltrate the BM, providing a direct mode of communication between the plasma and BM environments. We transfused fluorescent, wild-type (MPL+) platelets into recipient cMpl-/-mice before triggering systemic inflammation. Twenty hours postinfusion, we observed significant infiltration of donor platelet-derived particles in the BM, which we tracked immunophenotypically (MPL+ immunohistochemistry staining) and quantified by flow cytometry. To determine if this phenomenon relates to humans, we extensively characterized both megakaryocyte-derived and PEVs generated in vitro and in vivo, and found enrichment of extracellular vesicles in bone marrow compared with autologous peripheral blood. Last, BM from cMpl-/- mice was cultured in the presence or absence of wild-type (MPL+) PEVs. After 72 hours, flow cytometry revealed increased megakaryocytes only in cultures with added PEVs. The majority of CD41+ cells were bound to PEVs, suggesting a PEV-mediated rescue of megakaryopoiesis. In conclusion, we report for the first time that plasma-residing PEVs infiltrate the BM. Further, PEVs interact with BM cells in vivo and in vitro, causing functional reprogramming that may represent a novel model of inflammation-induced hematopoiesis.
在炎症期间,稳态造血会切换为应急造血以重新填充髓系细胞,偏向巨核细胞谱系。人们认为可溶性炎症线索在很大程度上负责这些改变。然而,这些血浆因子如何迅速改变骨髓(BM)尚不清楚。炎症还会驱动血小板激活,导致血小板衍生的细胞外囊泡(PEV)的释放,这些囊泡包装了不同的货物并重新编程靶细胞。我们假设 PEV 会渗透到 BM 中,为血浆和 BM 环境之间提供直接的通讯方式。我们在触发全身炎症之前,将荧光标记的野生型(MPL+)血小板输注到受体 cMpl-/-小鼠中。输注后 20 小时,我们观察到供体血小板衍生颗粒在 BM 中的显著浸润,我们通过免疫组织化学(MPL+免疫组化染色)和流式细胞术进行了跟踪和定量。为了确定这种现象是否与人类有关,我们对体外和体内生成的巨核细胞衍生和 PEV 进行了广泛的表征,并发现与自身外周血相比,BM 中存在更多的细胞外囊泡。最后,我们在存在或不存在野生型(MPL+)PEV 的情况下,将 cMpl-/-小鼠的 BM 进行培养。72 小时后,流式细胞术仅显示添加 PEV 的培养物中巨核细胞增加。大多数 CD41+细胞与 PEV 结合,表明 PEV 介导了巨核细胞生成的恢复。总之,我们首次报告了血浆中存在的 PEV 会渗透到 BM 中。此外,PEV 在体内和体外与 BM 细胞相互作用,导致功能重塑,这可能代表一种新的炎症诱导造血模型。
