The Involvement of CXCL11 in Bone Marrow-Derived Mesenchymal Stem Cell Migration Through Human Brain Microvascular Endothelial Cells

Bone marrow-derived mesenchymal stem cells (MSCs) transplant into the brain, where they play a potential therapeutic role in neurological diseases. However, the blood–brain barrier (BBB) is a native obstacle for MSCs entry into the brain. Little is known about the mechanism behind MSCs migration across the BBB. In the present study, we modeled the interactions between human MSCs (hMSCs) and human brain microvascular endothelial cells (HBMECs) to mimic the BBB microenvironment. Real-time PCR analysis indicated that the chemokine CXCL11 is produced by hMSCs and the chemokine receptor CXCR3 is expressed on HBMECs. Further results indicate that CXCL11 secreted by hMSCs may interact with CXCR3 on HBMECs to induce the disassembly of tight junctions through the activation of ERK1/2 signaling in the endothelium, which promotes MSCs transendothelial migration. These findings are relevant for understanding the biological responses of MSCs in BBB environments and helpful for the application of MSCs in neurological diseases.     

高效诱导人胚胎干细胞成为内皮祖细胞

血管的发生和发育不仅对胚胎形成中各器官的发育分化十分重要,并且对成体的创伤修复和生殖功能也具有重要意义．血管内皮细胞是形成心血管封闭管道系统的形态基础,体外多种细胞可经诱导分化产生出内皮祖/内皮细胞(endothelial progenitor/endothelial cells,EPCs/ECs),但是存在一些不足．鉴于人类胚胎干细胞(human embryonic stem cells,hESCs)诱导分化的全能性和长期增殖能力,为EPCs/ECs提供了新的来源．现有文献报道,hESCs诱导分化为EPCs/ECs的比例较低,为了提高该诱导分化效率,我们使用分阶段的二维诱导方法,首先将细胞接种在超纯层纤连蛋白(Matrigel)上,之后通过在不同阶段添加不同的因子,最终获得CD31⁺KDR⁺细胞的比例可以达到16%．进一步内皮诱导分化的结果显示,获得的EPCs/ECs的比例可以达到约32%,这些细胞具有在Matrigel上形成血管样结构的能力,可结合植物凝集素．实时定量PCR的结果显示,诱导分化所得的细胞表达众多内皮相关基因,并且免疫荧光的结果也表明部分细胞表达内皮细胞特异性表面标志CD31．     

骨髓间充质干细胞和内皮祖细胞移植促进血流重建的比较

目的:比较骨髓间充质细胞(Bone Marrow Mesenchymal Stem Cells,BM/MSC)和骨髓源内皮祖细胞(Bone Marrow Endothelialprogenitor cells,BM/EPC)移植促进血流重建的效果,为进一步优化骨髓干细胞移植治疗肢体缺血提供理论基础。方法:获取Lewis大鼠骨髓单个核细胞,在体外培养分化为MSC和EPC。采用Lewis大鼠建立单侧后肢缺血模型。在模型建立后3天,将0.8mlD-Hanks液注入大鼠缺血侧后肢,为对照组(n=6);将8×106个骨髓MSC植入大鼠缺血侧后肢,为MSC组(n=6);将体外培养的8×106个EPC植入大鼠缺血侧后肢,为EPC组(n=6)。细胞移植后3周行缺血大鼠后肢动脉造影,检测缺血侧后肢侧支血管数;获取缺血侧后肢腓肠肌,分别行CD31和α-SMA免疫组化染色,计算毛细血管密度和小动脉密度。结果:MSC组与EPC组侧支血管数无显著性差异,二者均高于对照组;EPC组毛细血管密度明显高于MSC组,二者均高于对照组;MSC组与EPC组小动脉密度无显著性差异,二者均高于对照组。结论:骨髓间充质干细胞移植和内皮祖细胞移植均能够明显促进血流重建,而且骨髓间充质干细胞在治疗肢体缺血性疾病中的优势应该受到重视。     

Differentiation of Human Umbilical Cord Matrix Mesenchymal Stem Cells into Neural-Like Progenitor Cells and Maturation into an Oligodendroglial-Like Lineage

Mesenchymal stem cells (MSCs) are viewed as safe, readily available and promising adult stem cells, which are currently used in several clinical trials. Additionally, their soluble-factor secretion and multi-lineage differentiation capacities place MSCs in the forefront of stem cell types with expected near-future clinical applications. In the present work MSCs were isolated from the umbilical cord matrix (Wharton''s jelly) of human umbilical cord samples. The cells were thoroughly characterized and confirmed as bona-fide MSCs, presenting in vitro low generation time, high proliferative and colony-forming unit-fibroblast (CFU-F) capacity, typical MSC immunophenotype and osteogenic, chondrogenic and adipogenic differentiation capacity. The cells were additionally subjected to an oligodendroglial-oriented step-wise differentiation protocol in order to test their neural- and oligodendroglial-like differentiation capacity. The results confirmed the neural-like plasticity of MSCs, and suggested that the cells presented an oligodendroglial-like phenotype throughout the differentiation protocol, in several aspects sharing characteristics common to those of bona-fide oligodendrocyte precursor cells and differentiated oligodendrocytes.     

Hela l-CaD Is Implicated in the Migration of Endothelial Cells/Endothelial Progenitor Cells in Human Neoplasms

Caldesmon (CaD) is a major actin-binding protein distributed in a variety of cell types. No functional differences among the isoforms in in vitro studies were found so far. In a previous study we found that the low molecular caldesmon isoform (Hela l-CaD) is expressed in endothelial cells (ECs)/endothelial progenitor cells (EPCs) in tumor vasculature of various human tumors. Activation of cell motility is necessary for the navigation of the tip ECs during angiogenesis, and migration of EPCs from the bone marrow during vasculogenesis. In the present study we searched for features of motility and the intracellular expression sites of Hela l-CaD in ECs/EPCs of various human tumors under histologically preserved microenviroment. We discovered a variety of motility-related cell protrusions like filopodia, microspikes, lamellipodia, podosomes, membrane blebs and membrane ruffles in the activated ECs/EPCs. Hela l-CaD appeared to be invariably expressed in the subregions of these cell protrusions. The findings suggest that Hela l-CaD is implicated in the migration of ECs/EPC in human neoplasms where they contribute to tumor vasculogenesis and angiogenesis.     

Hela l-CaD is Implicated in the Migration of Endothelial Cells/Endothelial Progenitor Cells in Human Neoplasms

Caldesmon (CaD) is a major actin-binding protein distributed in a variety of cell types. No functional differences among the isoforms in in vitro studies were found so far. In a previous study we found that the low molecular caldesmon isoform (Hela l-CaD) is expressed in endothelial cells (ECs)/endothelial progenitor cells (EPCs) in tumor vasculature of various human tumors. Activation of cell motility is necessary for the navigation of the tip ECs during angiogenesis, and migration of EPCs from the bone marrow during vasculogenesis. In the present study we searched for features of motility and the intracellular expression sites of Hela l-CaD in ECs/EPCs of various human tumors under histologically preserved microenviroment. We discovered a variety of motility-related cell protrusions like filopodia, microspikes, lamellipodia, podosomes, membrane blebs and membrane ruffles in the activated ECs/EPCs. Hela l-CaD appeared to be invariably expressed in the subregions of these cell protrusions. The findings suggest that Hela l-CaD is implicated in the migration of ECs/EPC in human neoplasms where they contribute to tumor vasculogenesis and angiogenesis.Key words: Hela l-CaD, cell motility, angiogenesis, vasculogenesis, ECs/EPCs     

人嗅觉黏膜间充质干细胞来源的外泌体促进内皮细胞的血管生成

外泌体作为是细胞旁分泌的重要介质,在促血管形成方面有重要作用。在我们前期研究中,已经成功从嗅黏膜间充质干细胞（olfactory mucosa mesenchymal stem cells,OM-MSCs）分离、鉴定了其外泌体,然而,OM-MSCs源外泌体对血管生成的影响尚不清楚。本研究旨在探讨OM-MSCs来源外泌体对内皮细胞血管生成能力的影响。采用PKH67 荧光标记OM-MSCs源外泌体,与人脑微血管内皮细胞（human brain microvessel endothelial cells, HBMECs) 共培养,观察 OM-MSCs外泌体能否进入 HBMECs。采用CCK-8法、Transwell 迁移实验和小管实验,观察 OM-MSCs外泌体对 HBMECs增殖、迁移及管状结构形成的影响。采用基质胶塞实验及CD31免疫荧光,观察OM-MSCs外泌体在体内对血管生成的影响。上述研究均以等量 PBS 作为对照。结果提示,OM-MSCs外泌体可被HBMECs 摄取。CCK-8 法检测显示,在处理1、2、3、4、5 d各时间点,实验组细胞增殖均优于对照组（1.32±0.14 vs. 0.98±0.04, 1.36±0.14 vs.1.04±0.06, 1.75±0.18 vs.1.33±0.11, 2.16±0.11 vs.1.50±0.19, 2.71±0.11 vs. 1.81±0.20, P<0.01）。Transwell 实验结果显示,实验组跨膜迁移细胞吸光度值较对照组显著增多（1.12±0.05 vs.0.02±0.02, P<0.05）。在体外小管实验中,从节点、交叉点、网眼数、血管分支数和总长度5个方面,实验组均高于空白对照组（374.33±127.74 vs. 193.33±44.79, 104.56±33.07 vs. 54.33±11.65, 20.11±11.20 vs. 7.56±3.64, 81.67±19.07 vs. 57.00±13.02, 11466.22±2781.03 vs. 8544.00±1848.61, P<0.05）;在体内实验中,实验组成血管及CD31阳性率（%）亦显著高于对照组（85.00±5.57 vs.8.00±2.08, P<0.05）。本研究表明：OM-MSCs外泌体可促进 HBMECs 增殖、迁移及管样结构形成,提示OM-MSCs外泌体可促进血管新生。     

Isolation of Human Mesenchymal Stem Cells and their Cultivation on the Porous Bone Matrix

Mesenchymal stem cells (MSCs) have a differentiation potential towards osteoblastic lineage when they are stimulated with soluble factors or specific biomaterials. This work presents a novel option for the delivery of MSCs from human amniotic membrane (AM-hMSCs) that employs bovine bone matrix Nukbone (NKB) as a scaffold. Thus, the application of MSCs in repair and tissue regeneration processes depends principally on the efficient implementation of the techniques for placing these cells in a host tissue. For this reason, the design of biomaterials and cellular scaffolds has gained importance in recent years because the topographical characteristics of the selected scaffold must ensure adhesion, proliferation and differentiation into the desired cell lineage in the microenvironment of the injured tissue. This option for the delivery of MSCs from human amniotic membrane (AM-hMSCs) employs bovine bone matrix as a cellular scaffold and is an efficient culture technique because the cells respond to the topographic characteristics of the bovine bone matrix Nukbone (NKB), i.e., spreading on the surface, macroporous covering and colonizing the depth of the biomaterial, after the cell isolation process. We present the procedure for isolating and culturing MSCs on a bovine matrix.     

VEGF和SDF-1 的协同作用对内皮祖细胞增殖与迁移的影响

目的:研究血管内皮生长因子(VEGF)和基质衍生因子-1(SDF-1)的协同作用对高血压脑出血患者内皮祖细胞(EPCs)增殖迁移能力的影响。方法:采集急性期高血压脑出血患者与健康对照的外周静脉血,分离培养外周血中的EPCs。用分别含有不同VEGF与SDF-1的培养基处理患者外周血分离的EPCs,Western blot检测各组细胞以及患者和对照中VEGF和SDF-1的蛋白表达。MTT法检测细胞增值能力,Transwell法检测细胞迁移能力,分别转染VEGF-si RNA与SDF-1-si RNA至各组细胞观察抑制VEGF和SDF-1对EPCs增殖迁移能力的影响。结果:VEGF和SDF-1在患者中的表达显著高于健康对照组。VEGF和SDF-1对EPCs的增殖和迁移能力有促进作用,且在其协同作用下效果显著。抑制VEGF或SDF-1显著降低VEGF和SDF-1对EPCs增殖迁移能力的促进作用。结论:VEGF和SDF-1的协同作可促进急性期高血压脑出血患者EPCs的细胞增殖能力和迁移能力,对患者血管修复提供新的治疗方向。     

人滑膜间充质干细胞与人脐带间充质干细胞的生物学性状比较

该文旨在比较人滑膜间充质干细胞(human synovial mesenchymal stem cells,hSMSCs)与人脐带间充质干细胞(human umbilical cord mesenchymal stem cells,hUC-MSCs)的生物学性状.流式细胞仪鉴定hSMSCs和hUC-MSCs.比较两种间...     

人嗅觉黏膜间充质干细胞来源的外泌体促进内皮细胞的血管生成

外泌体作为是细胞旁分泌的重要介质,在促血管形成方面有重要作用。在我们前期研究中,已经成功从嗅黏膜间充质干细胞（olfactory mucosa mesenchymal stem cells,OM-MSCs）分离、鉴定了其外泌体,然而,OM-MSCs源外泌体对血管生成的影响尚不清楚。本研究旨在探讨OM-MSCs来源外泌体对内皮细胞血管生成能力的影响。采用PKH67 荧光标记OM-MSCs源外泌体,与人脑微血管内皮细胞（human brain microvessel endothelial cells, HBMECs) 共培养,观察 OM-MSCs外泌体能否进入 HBMECs。采用CCK-8法、Transwell 迁移实验和小管实验,观察 OM-MSCs外泌体对 HBMECs增殖、迁移及管状结构形成的影响。采用基质胶塞实验及CD31免疫荧光,观察OM-MSCs外泌体在体内对血管生成的影响。上述研究均以等量 PBS 作为对照。结果提示,OM-MSCs外泌体可被HBMECs 摄取。CCK-8 法检测显示,在处理1、2、3、4、5 d各时间点,实验组细胞增殖均优于对照组（1.32±0.14 vs. 0.98±0.04, 1.36±0.14 vs.1.04±0.06, 1.75±0.18 vs.1.33±0.11, 2.16±0.11 vs.1.50±0.19, 2.71±0.11 vs. 1.81±0.20, P<0.01）。Transwell 实验结果显示,实验组跨膜迁移细胞吸光度值较对照组显著增多（1.12±0.05 vs.0.02±0.02, P<0.05）。在体外小管实验中,从节点、交叉点、网眼数、血管分支数和总长度5个方面,实验组均高于空白对照组（374.33±127.74 vs. 193.33±44.79, 104.56±33.07 vs. 54.33±11.65, 20.11±11.20 vs. 7.56±3.64, 81.67±19.07 vs. 57.00±13.02, 11466.22±2781.03 vs. 8544.00±1848.61, P<0.05）;在体内实验中,实验组成血管及CD31阳性率（%）亦显著高于对照组（85.00±5.57 vs.8.00±2.08, P<0.05）。本研究表明：OM-MSCs外泌体可促进 HBMECs 增殖、迁移及管样结构形成,提示OM-MSCs外泌体可促进血管新生。     

机械拉伸对骨髓间充质干细胞迁移行为的影响

目的:研究机械拉伸刺激对大鼠骨髓间充质干细胞迁移行为的影响并探讨其相关分子机制。方法:应用单轴机械拉伸加载装置考察不同条件的周期拉伸刺激对大鼠骨髓间充质干细胞迁移行为的影响,采用Transwell和划痕法评价细胞迁移能力,采用明胶酶谱法检测基质金属蛋白酶-2,-9(MMP-2,-9)表达的变化。结果:适宜的拉伸刺激可以明显促进大鼠骨髓间充质干细胞的迁移能力,1 Hz、10%应变拉伸8 h后可以使细胞迁移数量增加到对照组的1.58倍。拉伸刺激诱导骨髓间充质干细胞基质金属蛋白酶-2,-9(MMP-2,-9)表达。抑制剂GM6001抑制了拉伸诱导的MMP-2,-9分泌增加,同时抑制了拉伸刺激对细胞迁移的促进作用。结论:机械拉伸刺激影响大鼠骨髓间充质干细胞的迁移行为,MMP-2,-9在此过程中可能起着重要介导作用。     

Differential Effects of Isoxazole-9 on Neural Stem/Progenitor Cells,Oligodendrocyte Precursor Cells,and Endothelial Progenitor Cells

Adult mammalian brain can be plastic after injury and disease. Therefore, boosting endogenous repair mechanisms would be a useful therapeutic approach for neurological disorders. Isoxazole-9 (Isx-9) has been reported to enhance neurogenesis from neural stem/progenitor cells (NSPCs). However, the effects of Isx-9 on other types of progenitor/precursor cells remain mostly unknown. In this study, we investigated the effects of Isx-9 on the three major populations of progenitor/precursor cells in brain: NSPCs, oligodendrocyte precursor cells (OPCs), and endothelial progenitor cells (EPCs). Cultured primary NSPCs, OPCs, or EPCs were treated with various concentrations of Isx-9 (6.25, 12.5, 25, 50 μM), and their cell numbers were counted in a blinded manner. Isx-9 slightly increased the number of NSPCs and effectively induced neuronal differentiation of NSPCs. However, Isx-9 significantly decreased OPC number in a concentration-dependent manner, suggesting cytotoxicity. Isx-9 did not affect EPC cell number. But in a matrigel assay of angiogenesis, Isx-9 significantly inhibited tube formation in outgrowth endothelial cells derived from EPCs. This potential anti-tube-formation effect of Isx-9 was confirmed in a brain endothelial cell line. Taken together, our data suggest that mechanisms and targets for promoting stem/progenitor cells in the central nervous system may significantly differ between cell types.