血小板特异性SLFN14缺失通过巨核细胞和血小板基因表达失调导致巨血小板减少和血小板功能障碍。

Rachel J Stapley,Xenia Sawkulycz,Gabriel Hm Da Mota Araujo,Maximilian Englert,Lourdes Garcia-Quintanilla,Sophie Rm Smith,Amna Ahmed,Elizabeth J Haining,Nayandeep Kaur,Andrea Bacon,Andrey V Pisarev,Natalie S Poulter,Dean Pj Kavanagh,Steven G Thomas,Samantha J Montague,Julie Rayes,Zoltan Nagy,Neil V Morgan
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引用次数: 0

摘要

SLFN14相关血小板减少症是一种罕见的出血性疾病,由SLFN14突变改变血小板功能障碍患者的止血引起。SLFN蛋白在哺乳动物中高度保守,其中SLFN14在巨核细胞(MK)和红母细胞谱系中特异性表达。SLFN14在巨核生成和血小板功能中的作用尚未阐明。我们利用血小板因子-4 (PF4) cre介导的SLFN14外显子2和3的缺失(SLFN14;PF4- cre),建立了血小板和mk特异性SLFN14缺失的新小鼠模型,以解读驱动出血表型的分子机制。SLFN14;PF4-Cre+血小板显示血小板对凝血酶的信号减少,凝血酶形成减少,出血倾向增加,血栓形成延迟,通过活体成像评估。此外,与对照组相比,原位骨髓mk较少。对Slfn14;PF4-Cre纯合小鼠的mk和血小板进行RNA测序和基因本体分析,发现泛素化、ATP活性、细胞骨架和分子功能的通路发生改变。总之,我们研究了MKs和血小板中SLFN14缺失如何导致血小板功能障碍并改变其转录组,从而解释了SLFN14突变的人和小鼠血小板功能障碍和出血。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Platelet-specific SLFN14 deletion causes macrothrombocytopenia and platelet dysfunction through dysregulated megakaryocyte and platelet gene expression.
SLFN14-related thrombocytopenia is a rare bleeding disorder caused by SLFN14 mutations altering hemostasis in patients with platelet dysfunction. Schlafen (SLFN) proteins are highly conserved in mammals where SLFN14 is specifically expressed in megakaryocyte (MK) and erythroblast lineages. The role of SLFN14 in megakaryopoiesis and platelet function has not been elucidated. We generated a new murine model with a platelet- and MK-specific SLFN14 deletion using platelet factor-4 (PF4) cre-mediated deletion of exons 2 and 3 in Slfn14 (Slfn14;PF4-Cre) to decipher the molecular mechanisms driving the bleeding phenotype. SLFN14;PF4-Cre+ platelets displayed reduced platelet signaling to thrombin, reduced thrombin formation, increased bleeding tendency, and delayed thrombus formation as assessed by intravital imaging. Moreover, fewer in situ bone marrow MKs compared to controls. RNA sequencing and gene ontology analysis of MKs and platelets from Slfn14;PF4-Cre homozygous mice revealed altered pathways of ubiquitination, ATP activity, cytoskeleton and molecular function. In summary, we investigated how SLFN14 deletion in MKs and platelets leads to platelet dysfunction and alters their transcriptome, explaining the platelet dysfunction and bleeding in humans and mice with SLFN14 mutations.
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