间充质干细胞源性外泌体在脑损伤治疗中的研究进展

间充质干细胞(MSC)移植被认为是脑损伤修复最具潜力的治疗策略之一,其在神经修复的各个环节发挥着重要作用。最新研究表明MSC分泌的外泌体可能主导了脑损伤的修复,发挥促血管增生、免疫调节、抗凋亡及神经修复作用,其在新生儿脑损伤的治疗中具有较大潜力。该文根据当前的研究,就外泌体在脑损伤修复中的作用机制和应用前景及挑战作一概述,以期为干细胞治疗新生儿脑损伤提供新导向。     

Ginsenoside Rg1 ameliorates blood–brain barrier disruption and traumatic brain injury via attenuating macrophages derived exosomes miR-21 release

During the traumatic brain injury (TBI), improved expression of circulatory miR-21 serves as a diagnostic feature. Low levels of exosome-miR-21 in the brain can effectively improve neuroinflammation and blood–brain barrier (BBB) permeability, reduce nerve apoptosis, restore neural function and ameliorate TBI. We evaluated the role of macrophage derived exosomes-miR-21 (M-Exos-miR-21) in disrupting BBB, deteriorating TBI, and Rg1 interventions. IL-1β-induced macrophages (IIM)-Exos-miR-21 can activate NF-κB signaling pathway and induce the expressions of MMP-1, -3 and -9 and downregulate the levels of tight junction proteins (TJPs) deteriorating the BBB. Rg1 reduced miR-21-5p content in IIM-Exos (RIIM-Exos). The interaction of NMIIA–HSP90 controlled the release of Exos-miR-21, this interaction was restricted by Rg1. Rg1 could inhibit the Exos-miR-21 release in peripheral blood flow to brain, enhancing TIMP3 protein expression, MMPs proteolysis, and restricting TJPs degradation thus protected the BBB integrity. Conclusively, Rg1 can improve the cerebrovascular endothelial injury and hold the therapeutic potential against TBI disease.     

CircRNA在胃癌液体活检中的研究进展

胃癌因其高流行状态已成为我国一大公共卫生问题。环状RNA（circRNA）由于可稳定存在于人类的多种体液中,具备液态活检的先天优势,成为近年来精准治疗领域的研究热点。本文通过检索PubMed、Web of Science、中国知网等数据库文献,基于circRNA的生物学特征,归纳circRNA在胃癌早期筛查诊断、疗效监测、预后评估等方面的研究进展,论述circRNA作为新兴液体活检标志物的可能性及可靠性,为今后circRNA作为胃癌临床诊疗、评估、预后分子标志物的开发和转化提供思路。     

外泌体在缺血性脑卒中的研究进展

正1外泌体概述外泌体是直径在30~100 nm的胞外囊泡,通过细胞被释放到细胞外液中~([1])。它们存在于生物体液中,诸如血液和脑脊液。外泌体携带有DNA、RNA、蛋白质和脂质等。由于外泌体的微泡结构为其内在的小分子提供了一个安全稳定的环境,同时这些信号小分子利用循环系统在胞间信号交换发挥重要作用,这让外泌体表现出一个成熟、稳定的信号传输系统~([2])。研究发现,外泌体中的m RNA和micro RNA     

miR-122-5p调节创伤性脑外伤后小胶质细胞极化减弱炎症反应北大核心CSCD

目的探讨miR-122-5p对创伤性脑外伤后小胶质细胞凋亡、极化和炎症反应的影响。方法建立创伤性脑外伤(traumatic brain injury,TBI)小鼠模型和细胞模型。使用TBI小鼠脑匀浆刺激星型胶质细胞产生外泌体,microRNA微阵列分析外泌体中显著改变的microRNA。实时荧光定量PCR检测TBI小鼠模型和TBI细胞模型中miR-122-5p表达。使用TUNEL凋亡染色、免疫荧光共聚焦、蛋白质印迹研究miR-122-5p抑制剂在TBI神经炎症中对小胶质细胞凋亡、小胶质细胞M1/M2表型转化、NLRP3通路及NFκB磷酸化的作用。结果通过microRNA微阵列分析发现有83个下调miRNA(改变2倍以上,P<0.05),其中miR-122-5p显著下调(P<0.01),miR-122-5p在TBI小鼠及细胞模型中表达显著下降[(1.0±0.00)vs.(0.41±0.15),P<0.001];[(1.0±0.00)vs.(0.34±0.07),P<0.001]。TUNEL凋亡检测、免疫荧光染色结果表明抑制miR-122-5p表达,可以显著减轻LPS诱导的小胶质细胞凋亡[(8.03±1.30)vs.(3.17±0.34),P<0.001],促进小胶质细胞M1向M2表型转化,即M1表型极化减少[(56.96±13.70)vs.(34.70±3.47),P=0.002],M2表型极化增加[(30.46±3.67)vs.(40.74±2.49),P=0.005]。蛋白质印迹结果表明miR-122-5p抑制剂降低NLRP3炎症小体活化[(0.77±0.10)vs.(0.51±0.11),P=0.02],降低NFκB的磷酸化[(0.73±0.08)vs.(0.50±0.07),P=0.003]。结论miR-122-5p在TBI星形胶质细胞分泌的外泌体及小胶质细胞中表达下调,miR-122-5p抑制剂可以通过抑制TBI后NLRP3炎症小体通路的活化及NFκB的磷酸化,促进小胶质细胞M1向M2表型转化,减少小胶质细胞凋亡,从而减轻TBI后小胶质细胞炎症损伤。     

外泌体miRNA在心血管疾病中的研究进展

<正>心血管疾病(cardiovascular diseases,CVD)是全球高发性疾病,其中冠心病(coronary heart disease,CHD)是世界范围内的主要死亡原因,在老年人群中死亡率和发病率不断上升[1],与微小RNA(microRNA,miRNA,miR)的调节密切相关[2]。研究报道,miRNA调节大量信号通路,可通过外泌体(exosome)实现细胞间传递,参与细胞间的信息交流[3],其严格     

HUCMSC‐derived Exosomes Suppress the Titanium Particles‐induced Osteolysis in Mice through Inhibiting CCL2 and CCL3

ObjectiveWear particles induce inflammation and the further osteolysis around the prosthesis, has been proven to be the main cause of aseptic hip joint loosening. In this research, we aimed to clarify whether human umbilical cord mesenchymal stem cells (HUCMSCs) could inhibit the titanium particles‐induced osteolysis and shed light upon its mechanism.MethodsThe expression of chemokine (C‐C motif) ligand 2 (CCL2), chemokine (C‐C motif) ligand 3 (CCL3) and chemokine (C‐C motif) ligand 5 (CCL5) were examinjed in clinical specimens of aseptic hip prosthesis loosening patients. Local injection of lentivirus that knocked down CCL2 or CCL3 in a cranial osteolysis mice model were used to exam the effect of CCL2 and CCL3 on titanium particles‐induced osteolysis in vivo. Transwell assay was used to examine the effect of CCL2 and CCL3 on titanium particles‐induced activation of macrophage in vitro. Furthermore, the therapeutic effect of HUCMSCs, and exosomes from HUCMSCs were also examed in vivo and vitro. Immunohistochemical and real‐time PCR were used to examine the expression of relative pathways. Analysis of variance (ANOVA) and Student–Newman–Keuls post hoc t test were used to analyze the results and determine the statistical significance of the differences.ResultsResults showed that titanium particles caused the osteolysis at the mice cranial in vivo and a large number of macrophages that migrated, while local injection of HUCMSCs and exosomes did inhibit the cranial osteolysis and migration. An exosome inhibitor GW4869 significantly increased the osteolysis area in the mice cranium osteolysis model, and increased the number of migrated macrophages. Immunohistochemical results suggested that the expression of CCL2, CCL3 and CD68 in the cranial in Titanium particles mice increased significantly, but was significantly reduced by HUCMSCs or exosomes. HUCMSC and exosomes down‐regulate the expression of CCL3 in vitro and in vivo.ConclusionHUCMSCs and HUCMSC‐derived exosomes could suppress the titanium particles‐induced osteolysis in mice through inhibiting chemokine (C‐C motif) ligand 2, chemokine (C‐C motif) ligand 3.     

Extracellular vesicles: Their emerging roles in the pathogenesis of respiratory diseases

Alveoli are the basic structure of the lungs, consisting of various types of parenchymal and bone marrow-derived cells including alveolar macrophages. These various types of cells have several important functions; thus, communication between these cells plays an important role in homeostasis as well as in the pathophysiology of diseases in the lungs. For a better understanding of the pathophysiology of lung diseases, researchers have isolated each type of lung cell to investigate the changes in their gene expressions, including their humoral factor or adhesion molecules, to reveal the intercellular communication among these cells. In particular, investigations during the past decade have focused on extracellular vesicles, which are lipid bilayer delimited vesicles released from a cell that can move among various cells and transfer substances, including microRNAs, mRNAs and proteins, thus, functioning as intercellular messengers. Extracellular vesicles can be classified into three general groups: apoptotic bodies, exosomes, and microparticles. Extracellular vesicles, especially exosomes and microparticles, are attracting increasing attention from pulmonologists as tools for understanding pathogenesis and disease diagnosis. Here, we review studies, including our own, on exosomes and microparticles and their roles in both lung homeostasis and the pathogenesis of lung diseases such as idiopathic pulmonary fibrosis, chronic obstructive lung diseases, and acute respiratory distress syndrome. This review also addresses the roles of extracellular vesicles in COVID-19, the current global public health crisis.     

肝癌肿瘤微环境中非癌细胞成分的研究进展与介入治疗展望

肝癌肿瘤微环境中的非癌细胞成分,因其基因组的相对稳定性而受到关注。本文从肿瘤微环境的组成及其特点、肝癌肿瘤微环境的组成出发,对肝癌肿瘤微环境中非癌细胞成分的3个研究新的热点(外泌体、趋化因子及无生物活性条件的局部调节)进行综述,并对其在介入治疗方面的应用进行展望。