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人原代单核细胞经地塞米松刺激后的吞噬功能及转录组变化研究OACSTPCD

Phagocytosis and transcriptional modification in human primary monocytes primed by dexamethasone

中文摘要英文摘要

背景 噬血淋巴组织细胞增多症(hemophagocytic lymphohistiocytosis,HLH)是由于多种原因导致的过度的全身性炎症反应和器官功能障碍,高剂量的地塞米松常用于抑制炎症,血清可溶性VSIG4(sVSIG4)可作为评估巨噬细胞活化的标志物用于诊断HLH.目的 探究地塞米松刺激人原代单核细胞高表达VSIG4后的吞噬功能及基因转录表达变化,并筛选关键表达基因和通路.方法 体外分离人外周血单个核细胞,使用磁珠分选法阳选出CD14+单核细胞,加入地塞米松刺激,使用qPCR、流式细胞术和Western blot分别在mRNA和蛋白水平上检测VSIG4的表达,并用Western blot检测细胞培养上清中sVSIG4的表达,在地塞米松刺激VSIG4表达的同时检测单核细胞吞噬功能;利用RNA-seq对地塞米松刺激前后的人原代单核细胞差异基因进行测序,并进行KEGG通路富集和蛋白质互作分析,通过节点分析找到hub基因和关键信号通路.结果 体外地塞米松刺激单核细胞在mRNA和蛋白水平促进VSIG4表达上调(P<0.01),具有剂量依赖性和时间依赖性;地塞米松刺激的单核细胞过表达VSIG4会发生胞外段剪切生成sVSIG4;地塞米松刺激的VSIG4+单核细胞吞噬作用增强(P<0.01).RNA-seq差异分析中,共有 491个差异表达基因,其中上调 159个,下调 332个;KEGG通路富集显示差异基因主要集中在EB病毒感染、新冠病毒感染、补体和凝血级联反应、NOD样受体信号通路、嘧啶代谢、C型凝集素受体信号通路、吞噬小体、金黄色葡萄球菌感染、Ⅰ型糖尿病、RIG-Ⅰ样受体信号通路、Toll样受体信号通路等信号通路(P<0.05);从PPI网络确定了 20个hub基因.结论 体外地塞米松刺激人原代单核细胞可以促进VSIG4表达上调,同时生成sVSIG4,VSIG4+单核细胞可能具有更强的吞噬功能.转录组分析提示部分炎症相关基因和信号通路可能与VSIG4的表达调控和噬血淋巴组织细胞增多症的发病机制有关.

Background Hemophagocytic lymphohistiocytosis(HLH)is an excessive systemic inflammatory reaction and organ dysfunction caused by many reasons.High-dose dexamethasone is often used to inhibit inflammation,and serum soluble VSIG4(sVSIG4)can be used as a marker for evaluating macrophage activation to diagnose HLH.Objective To explore the changes of phagocytosis and gene transcription expression after the high expression of VSIG4 in human primary monocytes stimulated by dexamethasone,and screen the key expression genes and pathways.Methods Human peripheral blood mononuclear cells were isolated in vitro.CD14+monocytes were positively selected by magnetic beads sorting and stimulated by dexamethasone.The expression of VSIG4 was detected at mRNA and protein levels respectively by qPCR,flow cytometry and Western Blot.Western Blot was used to detect the expression of sVSIG4 in cell culture supernatant,and the phagocytosis of monocytes was detected while dexamethasone stimulated the expression of VSIG4.RNA-seq was used to sequence the differential genes of human primary monocytes before and after dexamethasone stimulation,KEGG pathway enrichment and protein-to-protein interaction analysis were performed,and hub genes were found through node analysis.Results Dexamethasone could stimulate monocytes to promote the up-regulation of VSIG4 expression at mRNA and protein levels in a dose-dependent and time-dependent manner in vitro(P<0.01).Overexpression of VSIG4 in monocytes stimulated by dexamethasone led to extracellular domain shearing to generate sVSIG4.VSIG4+monocytes stimulated by dexamethasone showed enhanced phagocytosis(P<0.01).There were 491 differentially expressed genes in the difference analysis of RNA-seq,of which 159 were up-regulated and 332 were down-regulated.KEGG pathway enrichment showed that the differential genes were mainly concentrated in EB virus infection,COVID-19 infection,complement and coagulation cascades,NOD-like receptor signaling pathway,pyrimidine metabolism,C-type lectin receptor signaling pathway,phagosome,staphylococcus aureus infection,type I diabetes mellitus,RIG-I-like receptor signaling pathway,toll-like receptor signaling pathway,etc(P<0.05).Twenty hub genes were identified from PPI network.Conclusion Stimulation of human primary monocytes by dexamethasone in vitro can promote the up-regulation of VSIG4 expression and generate sVSIG4 at the same time.VSIG4+monocytes may show enhanced phagocytosis.RNA-seq analysis suggests that some inflammation-related genes and signal pathways may be related to the expression regulation of VSIG4 and the pathogenesis of HLH.

程莉;曹腾宇;刘蓓;高泓浩;袁顺宗;于洋;黄文荣

解放军医学院,北京 100853||解放军总医院第五医学中心血液病医学部,北京 100071解放军医学院,北京 100853||解放军总医院第一医学中心输血医学科,北京 100853解放军总医院第五医学中心血液病医学部,北京 100071解放军总医院第一医学中心输血医学科,北京 100853

临床医学

地塞米松VSIG4单核细胞转录组测序吞噬

dexamethasoneVSIG4monocyteRNA-seqphagocytosis

《解放军医学院学报》 2024 (003)

276-282 / 7

国家自然科学基金项目(82170230)

10.12435/j.issn.2095-5227.2023.122

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