Human Adipose Tissue-Derived Mesenchymal Stem Cells Target Brain Tumor-Initiating Cells

In neuro-oncology, the biology of neural stem cells (NSCs) has been pursued in two ways: as tumor-initiating cells (TICs) and as a potential cell-based vehicle for gene therapy. NSCs as well as mesenchymal stem cells (MSCs) have been reported to possess tumor tropism capacities. However, there is little data on the migratory capacity of MSCs toward brain tumor-initiating cells (BTICs). This study focuses on the ability of human adipose tissue derived MSCs (hAT-MSCs) to target BTICs and their crosstalk in the microenvironment. BTICs were isolated from three different types of brain tumors. The migration capacities of hAT-MSCs toward BTICs were examined using an in vitro migration assay and in vivo bioluminescence imaging analysis. To investigate the crosstalk between hAT-MSCs and BTICs, we analyzed the mRNA expression patterns of cyto-chemokine receptors by RT-qPCR and the protein level of their ligands in co-cultured medium. The candidate cyto-chemokine receptors were selectively inhibited using siRNAs. Both in vitro and in vivo experiments showed that hAT-MSCs possess migratory abilities to target BTICs isolated from medulloblastoma, atypical teratoid/rhabdoid tumors (AT/RT) and glioblastoma. Different types of cyto-chemokines are involved in the crosstalk between hAT-MSCs and BTICs (medulloblastoma and AT/RT: CXCR4/SDF-1, CCR5/RANTES, IL6R/IL-6 and IL8R/IL8; glioblastoma: CXCR4/SDF-1, IL6R/IL-6, IL8R/IL-8 and IGF1R/IGF-1). Our findings demonstrated the migratory ability of hAT-MSCs for BTICs, implying the potential use of MSCs as a delivery vehicle for gene therapy. This study also confirmed the expression of hAT-MSCs cytokine receptors and the BTIC ligands that play roles in their crosstalk.     

脂肪来源间充质干细胞体外定向诱导分化血管细胞的研究进展

脂肪来源的间充质干细胞具有较强的体外增殖能力,因具有生物学特性稳定、来源充足、体外培养条件低等优势已引起各国学者的关注。脂肪间充质干细胞凭借其多向分化潜能,是人体干细胞库潜在的重要来源之一。目前,研究人员已成功地在体外将其诱导为内皮细胞,成骨细胞、成软骨细胞、脂肪前体细胞、平滑肌细胞,心肌细胞、神经样细胞等。就脂肪来源的间充质干细胞体外定向诱导分化血管细胞的研究进展作一综述。     

Extracts of Adipose Derived Stem Cells Slows Progression in the R6/2 Model of Huntington's Disease

Stem cell therapy is a promising treatment for incurable disorders including Huntington''s disease (HD). Adipose-derived stem cell (ASC) is an easily available source of stem cells. Since ASCs can be differentiated into nervous stem cells, it has clinically feasible potential for neurodegenerative disease. In addition, ASCs secrete various anti-apoptotic growth factors, which improve the symptoms of disease from transplanted ASCs. Thus, cell-free extracts of ASCs (ASCs-E) could be a potential candidate for treatment of HD. Here, we investigated effects of ASCs-E on R6/2 HD mouse model and neuronal cells. In R6/2 HD model, injection of ASCs-E improved the performance in Rotarod test. ASCs-E also ameliorated striatal atrophy and mutant huntingtin aggregation in the striatum. In Western blot increased expressions of p-Akt, p-CREB and PGC1α were noted by injection of ASCs-E, when comparing to the R6/2 HD model. Neuro2A neuroblastoma cells treated with ASCs-E showed increased expression of p-CREB and PGC1α. In conclusion, ASCs-E delayed disease progression in animal model of HD by restoring of CREB-PGC1α pathway and could be a potential resource for treatment of HD.     

不饱和脂肪酸对人脂肪间充质干细胞生物学特性的影响

探讨不饱和脂肪酸对人脂肪间充质干细胞(adipose-derived stem cells,ADSCs)的形态、增殖、免疫表型及分化潜能的影响.采用0.15％Ⅷ型胶原酶消化法从皮下脂肪组织中分离获得ADSCs,使用添加了油酸或亚麻酸的培养基对ADSCs进行传代培养,倒置显微镜下观察细胞形态,计数法绘制细胞生长曲线,流式...     

Delivery of Human Adipose Stem Cells Spheroids into Lockyballs

Adipose stem cells (ASCs) spheroids show enhanced regenerative effects compared to single cells. Also, spheroids have been recently introduced as building blocks in directed self-assembly strategy. Recent efforts aim to improve long-term cell retention and integration by the use of microencapsulation delivery systems that can rapidly integrate in the implantation site. Interlockable solid synthetic microscaffolds, so called lockyballs, were recently designed with hooks and loops to enhance cell retention and integration at the implantation site as well as to support spheroids aggregation after transplantation. Here we present an efficient methodology for human ASCs spheroids biofabrication and lockyballs cellularization using micro-molded non-adhesive agarose hydrogel. Lockyballs were produced using two-photon polymerization with an estimated mechanical strength. The Young’s modulus was calculated at level 0.1362 +/-0.009 MPa. Interlocking in vitro test demonstrates high level of loading induced interlockability of fabricated lockyballs. Diameter measurements and elongation coefficient calculation revealed that human ASCs spheroids biofabricated in resections of micro-molded non-adhesive hydrogel had a more regular size distribution and shape than spheroids biofabricated in hanging drops. Cellularization of lockyballs using human ASCs spheroids did not alter the level of cells viability (p › 0,999) and gene fold expression for SOX-9 and RUNX2 (p › 0,195). The biofabrication of ASCs spheroids into lockyballs represents an innovative strategy in regenerative medicine, which combines solid scaffold-based and directed self-assembly approaches, fostering opportunities for rapid in situ biofabrication of 3D building-blocks.     

脂肪干细胞在再生医学中的应用

再生医学是一门研究如何促进创伤与组织再生及功能重建的新兴学科,主要通过研究干细胞分化、机体等正常组织创伤修复与再生等机制来维持、修复、再生或改善损伤组织和器官功能。脂肪干细胞（adipose-derived stem cells,ASCs）是近年来从脂肪组织中分离得到的一种具有多向分化潜能的干细胞,是一种足量的、可用于实际的、有一定吸引力的自体细胞代替的供体资源,并能够广泛的用于组织修复、再生、发育的可塑性及细胞治疗等研究中。阐述了脂肪干细胞在旁分泌、软组织重建及损伤修复、骨骼肌重建、心血管重建、神经系统重建及癌症转移与入侵方面的作用模式,概括总结了目前利用脂肪干细胞参与的临床治疗方法,以期对脂肪干细胞在再生医学中应用研究提供参考。     

多顺反子质粒重编程人脂肪干细胞为诱导多能干细胞

为建立多顺反子质粒载体转染技术获得人脂肪干细胞(adipose stem cells,ASCs)来源的诱导多能干细胞(induced pluripotency stem cells,iPSCs),应用2A元件连接Oct4/Sox2/KLF4/c-Myc四因子基因,构建为单一开放阅读框的多顺反子质粒载体．使用该质粒对ASCs进行转染及重编程为iPSC．采用形态学观察、特异性抗体免疫荧光鉴定、体外拟胚体诱导分化和体内畸胎瘤形成等方法进行鉴定．结果显示,ASCs成功重编程为iPSCs,具有与人胚胎干细胞相似的形态学及多向分化潜能;通过拟胚体和畸胎瘤实验证实iPSCs能在体内外分化成三胚层细胞;DNA印迹实验显示质粒载体序列未整合至iPSCs基因组中．因此,通过多顺反子质粒载体重编程技术成功建立的人iPSCs具有多向分化潜能,可减免发生插入突变和免疫排斥问题,为iPSCs在遗传性或退行性疾病的治疗奠定了实验基础．     

Preparation of Efficient Excision Repair Competent Cell-Free Extracts from C. reinhardtii Cells

Chlamydomonas reinhardtii is a prospective model system for understanding molecular mechanisms associated with DNA repair in plants and algae. To explore this possibility, we have developed an in vitro repair system from C. reinhardtii cell-free extracts that can efficiently repair UVC damage (Thymine-dimers) in the DNA. We observed that excision repair (ER) synthesis based nucleotide incorporation, specifically in UVC damaged supercoiled (SC) DNA, was followed by ligation of nicks. Photoreactivation efficiently competed out the ER in the presence of light. In addition, repair efficiency in cell-free extracts from ER deficient strains was several fold lower than that of wild-type cell extract. Interestingly, the inhibitor profile of repair DNA polymerase involved in C. reinhardtii in vitro ER system was akin to animal rather than plant DNA polymerase. The methodology to prepare repair competent cell-free extracts described in the current study can aid further molecular characterization of ER pathway in C. reinhardtii.     

MicroRNA Regulation of Adipose Derived Stem Cells in Aging Rats

Background

Perturbations in abdominal fat secreted adipokines play a key role in metabolic syndrome. This process is further altered during the aging process, probably due to alterations in the preadipocytes (aka. stromal vascular fraction cells-SVF cells or adipose derived stem cells-ASCs) composition and/or function. Since microRNAs regulate genes involved both in development and aging processes, we hypothesized that the impaired adipose function with aging is due to altered microRNA regulation of adipogenic pathways in SVF cells.

Methodology and Principal Findings

Alterations in mRNA and proteins associated with adipogenic differentiation (ERK5 and PPARg) but not osteogenic (RUNX2) pathways were observed in SVF cells isolated from visceral adipose tissue with aging (6 to 30 mo) in female Fischer 344 x Brown Norway Hybrid (FBN) rats. The impaired differentiation capacity with aging correlated with altered levels of miRNAs involved in adipocyte differentiation (miRNA-143) and osteogenic pathways (miRNA-204). Gain and loss of function studies using premir or antagomir-143 validated the age associated adipocyte dysfunction.

Conclusions and Significance

Our studies for the first time indicate a role for miRNA mediated regulation of SVF cells with aging. This discovery is important in the light of the findings that dysfunctional adipose derived stem cells contribute to age related chronic diseases.     

A Continuous-Exchange Cell-Free Protein Synthesis System Based on Extracts from Cultured Insect Cells

In this study, we present a novel technique for the synthesis of complex prokaryotic and eukaryotic proteins by using a continuous-exchange cell-free (CECF) protein synthesis system based on extracts from cultured insect cells. Our approach consists of two basic elements: First, protein synthesis is performed in insect cell lysates which harbor endogenous microsomal vesicles, enabling a translocation of de novo synthesized target proteins into the lumen of the insect vesicles or, in the case of membrane proteins, their embedding into a natural membrane scaffold. Second, cell-free reactions are performed in a two chamber dialysis device for 48 h. The combination of the eukaryotic cell-free translation system based on insect cell extracts and the CECF translation system results in significantly prolonged reaction life times and increased protein yields compared to conventional batch reactions. In this context, we demonstrate the synthesis of various representative model proteins, among them cytosolic proteins, pharmacological relevant membrane proteins and glycosylated proteins in an endotoxin-free environment. Furthermore, the cell-free system used in this study is well-suited for the synthesis of biologically active tissue-type-plasminogen activator, a complex eukaryotic protein harboring multiple disulfide bonds.     

心肌样微环境诱导脂肪干细胞分化的研究

微环境在促进干细胞分化过程中起着重要的作用,研究心肌样微环境介导脂肪干细胞向心肌细胞分化有重要意义．将脂肪干细胞与心肌细胞直接或通过细胞培养小室间接共培养,检测脂肪干细胞的分化情况．对于直接共培养体系,采用绿色荧光蛋白CFSE对脂肪干细胞进行标记,然后与心肌细胞以1∶5混合后进行直接共培养,2周后,通过流式细胞仪分选分化的脂肪干细胞,并检测其分化情况．检测方法包括：扫描电镜和透射电镜观察细胞的超微结构;免疫细胞化学检测心肌特异性肌球蛋白重链(MHC)、肌钙蛋白(TnⅠ)和连接蛋白(Cx43);Western blot定量分析;RT-PCR检测心脏特异性转录因子mRNA的表达．结果表明,分化的脂肪干细胞呈现心肌样超微结构,并表达心肌特异性蛋白和转录因子,并且直接共培养体系中分化的脂肪干细胞其表达率明显高于间接共培养体系中的表达率．因此,在心肌样微环境中,除了可溶性细胞因子对分化起作用以外,心肌细胞产生的机械牵拉对脂肪干细胞向心肌细胞分化也起着重要的作用．     

Regionally-Specified Second Trimester Fetal Neural Stem Cells Reveals Differential Neurogenic Programming

Neural stem/progenitor cells (NSC) have the potential for treatment of a wide range of neurological diseases such as Parkinson Disease and multiple sclerosis. Currently, NSC have been isolated only from hippocampus and subventricular zone (SVZ) of the adult brain. It is not known whether NSC can be found in all parts of the developing mid-trimester central nervous system (CNS) when the brain undergoes massive transformation and growth. Multipotent NSC from the mid-trimester cerebra, thalamus, SVZ, hippocampus, thalamus, cerebellum, brain stem and spinal cord can be derived and propagated as clonal neurospheres with increasing frequencies with increasing gestations. These NSC can undergo multi-lineage differentiation both in vitro and in vivo, and engraft in a developmental murine model. Regionally-derived NSC are phenotypically distinct, with hippocampal NSC having a significantly higher neurogenic potential (53.6%) over other sources (range of 0%–27.5%, p<0.004). Whole genome expression analysis showed differential gene expression between these regionally-derived NSC, which involved the Notch, epidermal growth factor as well as interleukin pathways. We have shown the presence of phenotypically-distinct regionally-derived NSC from the mid-trimester CNS, which may reflect the ontological differences occurring within the CNS. Aside from informing on the role of such cells during fetal growth, they may be useful for different cellular therapy applications.     

脂肪间充质干细胞的分离培养、多向分化及其应用前景

脂肪组织几乎遍布于动物体全身,在整个生命过程中有极强的可塑性. 近年研究表明,运用相似的分离方法,可从人、小鼠、大鼠、兔和猪等物种脂肪组织中分离获得脂肪间充质干细胞. 与骨髓来源的间充质干细胞相比,它具有相似的表面标记和分化潜能;在合适的诱导条件下,这种细胞能分别向3个胚层的细胞分化,如成肌细胞、心肌细胞、软骨细胞、成骨细胞、脂肪细胞、神经细胞、血管内皮细胞和肝细胞等;脂肪间充质干细胞具有来源丰富,取材安全方便和扩增速率高的特点,使其在细胞治疗和组织工程方面具有更广阔的应用前景.     

脂肪干细胞对神经创伤修复的研究进展

在医学上,神经系统对神经损伤的自我修复能力往往有限。因此,探索有效修复损伤神经的方法已经成为近年来的研究热点。研究发现脂肪干细胞对各类损伤神经都有一定的修复作用,可作为修复神经损伤的种子细胞。脂肪干细胞不仅具有干细胞的特性而且还具有自身的优点;首先它属于成体细胞,来源于中胚层,具有多种分化的潜能;其次免疫原性较低,易于取材;另外脂肪干细胞移植后的风险较低,因此被认为是修复神经损伤的优秀种子细胞。就脂肪干细胞的特性及脂肪干细胞在神经创伤修复方面的研究进展和存在的问题进行综述。     

A Nerve Growth Factor-Sensitive S6 Kinase in Cell-Free Extracts from PC 12 Cells

Soluble extracts from nerve growth factor (NGF)-stimulated PC12 cells prepared by alkaline lysis show a two- to 10-fold greater ability to phosphorylate the 40S ribosomal protein S6 than do extracts from control cells. The alkaline lysis method yields a preparation of much higher specific activity than does sonication. Half-maximal incorporation of 32P from [32P]ATP into S6 occurred after 4-7 min of NGF treatment. The partially purified NGF-sensitive S6 kinase has a molecular weight of 45,000. It is not inhibited by NaCl, chlorpromazine, or the specific inhibitor of cyclic AMP (cAMP)-dependent protein kinase, nor is it activated by addition of diolein plus phosphatidylserine. Trypsin treatment of either crude extracts or partially purified S6 kinase from control or NGF-treated cells was without effect. These data suggest that the S6 kinase stimulated by NGF is neither cAMP-dependent protein kinase or protein kinase C nor the result of tryptic activation of an inactive proenzyme. Treatment of intact cells with dibutyryl cAMP or 5'-N-ethylcarboxamideadenosine also increases the subsequent cell-free phosphorylation of S6. This observation suggests that cAMP-dependent protein kinase may be involved in the phosphorylation of S6 kinase.     

A Cell-Free Translocation System Using Extracts of Cultured Insect Cells to Yield Functional Membrane Proteins

Cell-free protein synthesis is a powerful method to explore the structure and function of membrane proteins and to analyze the targeting and translocation of proteins across the ER membrane. Developing a cell-free system based on cultured cells for the synthesis of membrane proteins could provide a highly reproducible alternative to the use of tissues from living animals. We isolated Sf21 microsomes from cultured insect cells by a simplified isolation procedure and evaluated the performance of the translocation system in combination with a cell-free translation system originating from the same source. The isolated microsomes contained the basic translocation machinery for polytopic membrane proteins including SRP-dependent targeting components, translocation channel (translocon)-dependent translocation, and the apparatus for signal peptide cleavage and N-linked glycosylation. A transporter protein synthesized with the cell-free system could be functionally reconstituted into a lipid bilayer. In addition, single and double labeling with non-natural amino acids could be achieved at both the lumen side and the cytosolic side in this system. Moreover, tail-anchored proteins, which are post-translationally integrated by the guided entry of tail-anchored proteins (GET) machinery, were inserted correctly into the microsomes. These results showed that the newly developed cell-free translocation system derived from cultured insect cells is a practical tool for the biogenesis of properly folded polytopic membrane proteins as well as tail-anchored proteins.