Long-lived lung megakaryocytes contribute to platelet recovery in thrombocytopenia models.

Alison C Livada,Kathleen E McGrath,Michael W Malloy,Chen Li,Sara K Ture,Paul D Kingsley,Anne D Koniski,Leah A Vit,Katherine E Nolan,Deanne Mickelsen,Grace E Monette,Preeti Maurya,James Palis,Craig N Morrell
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Abstract

Lung megakaryocytes (Mks) are largely extravascular with an immune phenotype (1). Because bone marrow (BM) Mks are short-lived it has been assumed that extravascular lung Mks are constantly 'seeded' from the BM. To investigate lung Mk origins and how that impacts their functions, we developed methods to specifically label lung Mks using CFSE dye and biotin delivered oropharyngeal. Labeled lung Mks were present for up to four months, while BM Mks had a <1 week lifespan. In a parabiosis model, lung Mks were partially replaced over 1-month from a circulating source. Unlike tissue-resident macrophages, using MDS1-Cre-ERT2 TdTomato mice, we found that lung Mks arise from hematopoietic stem cells. However, studies with FlkSwitch mTmG mice showed that lung Mks are derived from a Flt3-independent lineage that does not go through a multipotent progenitor. CFSE labeling to track lung Mk-derived platelets showed that about 10% of circulating platelets are lung resident Mk-derived at steady state, but in sterile thrombocytopenia this was doubled (about 20%). Lung-derived platelets were similarly increased in a malaria infection model (Plasmodium yoelii) typified by thrombocytopenia. These studies indicate that lung Mks arise from a Flt3-negative BM source, are long-lived, and contribute more platelets during thrombocytopenia.
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长寿命肺巨核细胞有助于血小板减少模型中血小板的恢复。
肺巨核细胞(Mks)在很大程度上是具有免疫表型的血管外细胞(1)。由于骨髓(BM)巨核细胞的寿命很短,人们一直认为肺血管外巨核细胞是不断从BM "播种 "而来的。为了研究肺Mk的起源及其对其功能的影响,我们开发了使用CFSE染料和生物素递送口咽特异性标记肺Mk的方法。被标记的肺Mk可存活长达四个月,而BM Mk的存活期不足一周。在准同种异体移植模型中,肺Mks在1个月的时间内被循环来源部分替代。与组织驻留巨噬细胞不同的是,通过使用 MDS1-Cre-ERT2 TdTomato 小鼠,我们发现肺 Mks 来自造血干细胞。然而,对 FlkSwitch mTmG 小鼠的研究表明,肺 Mks 来源于不依赖 Flt3 的血统,不经过多能祖细胞。用 CFSE 标记追踪肺 Mk 衍生血小板的结果显示,在稳定状态下,约 10% 的循环血小板是肺常驻 Mk 衍生的,但在无菌血小板减少症中,这一比例增加了一倍(约 20%)。在以血小板减少为典型特征的疟疾感染模型(疟原虫)中,肺源性血小板也同样增加。这些研究表明,肺源性 Mk 来源于 Flt3 阴性的 BM,寿命长,在血小板减少时可贡献更多血小板。
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