Isolation,characterisation and comparative analysis of human umbilical cord vein perivascular cells and cord blood mesenchymal stem cells

Perivascular cells are known to be ancestors of mesenchymal stem cells (MSCs) and can be obtained from heart, skin, bone marrow, eye, placenta and umbilical cord (UC). However detailed characterization of perivascular cells around the human UC vein and comparative analysis of them with MSCs haven’t been done yet. In this study, our aim is to isolate perivascular cells from human UC vein and characterize them versus UC blood MSCs (UCB-MSCs). For this purpose, perivascular cells around the UC vein were isolated enzymatically and then purified with magnetic activated cell sorting (MACS) method using CD146 Microbead Kit respectively. MSCs were isolated from UCB by Ficoll density gradient solution. Perivascular cells and UCB-MSCs were characterized by osteogenic and adipogenic differentiation procedures, flow cytometric analysis [CD146, CD105, CD31, CD34, CD45 and alpha-smooth muscle actin (α-SMA)], and immunofluorescent staining (MAP1B and Tenascin C). Alizarin red and Oil red O staining results showed that perivascular cells and MSCs had osteogenic and adipogenic differentiation capacity. However, osteogenic differentiation capacity of perivascular cells were found to be less than UCB-MSCs. According to flow cytometric analysis, CD146 expression of perivascular cells were appeared to be 4.8-fold higher than UCB-MSCs. Expression of α-SMA, MAP1B and Tenascin-C from perivascular cells was determined by flow cytometry analysis and immunfluorescent staining. The results appear to support the fact that perivascular cells are the ancestors of MSCs in vascular area. They may be used as alternative cells to MSCs in the field of vascular tissue engineering.     

Quantity and proliferation rate of mesenchymal stem cells in human cord blood during gestation

UCB (umbilical cord blood) as a resource of MSCs (mesenchymal stem cells) is widely accepted, but the quantity and characteristics of UCB-MSCs from different gestational ages have not been well studied. We have quantified the number of MSCs in UCB at different gestational ages using a multi-colour flowcytometer and compared the cell proliferation rates of these UCB-MSCs. Defining MSCs as CD44+/CD105+/CD34-/CD45 population, their numbers declined in the UCB at the gestational age. Proliferation rates were significantly higher in UCB before term than at full term. Non-full term UCB samples may be a better source of MSCs.     

Mesenchymal stem cells from umbilical cord blood: parameters for isolation, characterization and adipogenic differentiation

Isolation of mesenchymal stem cells (MSCs) from umbilical cord blood (UCB) from full-term deliveries is a laborious, time-consuming process that results in a low yield of cells. In this study we identified parameters that can be helpful for a successful isolation of UCB-MSCs. According to our findings, chances for a well succeeded isolation of these cells are higher when MSCs were isolated from UCB collected from normal full-term pregnancies that did not last over 37 weeks. Besides the duration of pregnancy, blood volume and storage period of the UCB should also be considered for a successful isolation of these cells. Here, we found that the ideal blood volume collected should be above 80 mL and the period of storage should not exceed 6 h. We characterized UCB-MSCs by morphologic, immunophenotypic, protein/gene expression and by adipogenic differentiation potential. Isolated UCB-MSCs showed fibroblast-like morphology and the capacity of differentiating into adipocyte-like cells. Looking for markers of the undifferentiated status of UCB-MSCs, we analyzed the UCB-MSCs’ protein expression profile along different time periods of the differentiation process into adipocyte-like cells. Our results showed that there is a decrease in the expression of the markers CD73, CD90, and CD105 that correlates to the degree of differentiation of UCB-MSCs We suggest that CD90 can be used as a mark to follow the differentiation commitment degree of MSCs. Microarray results showed an up-regulation of genes related to the adipogenesis process and to redox metabolism in the adipocyte-like differentiated MSCs. Our study provides information on a group of parameters that may help with successful isolation and consequently with characterization of the differentiated/undifferentiated status of UCB-MSCs, which will be useful to monitor the differentiation commitment of UCB-MSC and further facilitate the application of those cells in stem-cell therapy.     

The efficiency of in vitro isolation and myogenic differentiation of MSCs derived from adipose connective tissue,bone marrow,and skeletal muscle tissue

The objective of the study is to evaluate efficiency of in vitro isolation and myogenic differentiation of mesenchymal stem cells (MSCs) derived from adipose connective tissue (AD-MSCs), bone marrow (BM-MSCs), and skeletal muscle tissue (MC-MSCs). MSCs were isolated from adipose connective tissue, bone marrow, and skeletal muscle tissue of two adult 6-wk-old rats. Cultured MSCs were treated with 5-azacytidine (AZA) to induce myogenic differentiation. Isolated MSCs and differentiated cells were evaluated by immunocytochemistry (ICC), fluorescence-activated cell sorting (FACS), PCR, and RT-PCR. AD-MSCs showed the highest proliferation rate while BM-MSCs had the lowest one. In ICC, isolated MSCs had strong CD90- and CD44-positive expression and negative expression of CD45, CD31, and CD34, while AZA-treated MSCs had strong positive desmin expression. In FACS analysis, AD-MSCs had the highest percentage of CD90- and CD44-positive-expressing cells (99% and 96%) followed by BM-MSCs (97% and 94%) and MC-MSCs (92% and 91%).At 1 wk after incubation with AZA treatment, the peak of myogenin expression reached 93% in differentiated MC-MSCs, 83.3% in BM-MSCs, and 77% in AD-MSCs. MSCs isolated from adipose connective tissue, bone marrow, and skeletal muscle tissue have the same morphology and phenotype, but AD-MSCs were the most easily accessible and had the highest rate of growth on cultivation and the highest percentage of stem cell marker expression. Moreover, although MC-MSCs showed the highest rate of myogenic differentiation potential and expression of myoblast markers, AD-MSCs and BM-MSCs still can be valuable alternatives. The differentiated myoblastic cells could be an available new choice for myoblastic auto-transplantation in regeneration medicine.     

Osteogenic differentiation of GFP-labeled human umbilical cord blood derived mesenchymal stem cells after cryopreservation

The osteogenic capacity of human umbilical cord blood derived mesenchymal stem cells (UCB-MSCs) has been demonstrated both in vitro and in vivo. Therefore, cell labeling and storage are becoming necessary for researching the potential therapeutic use of UCB-MSCs for bone tissue engineering. The aim of this study was to determine the effect of cryopreservation on the osteogenic differentiation of green fluorescent protein (GFP)-marked UCB-MSCs in vitro. MSCs were isolated from full-term human UCB, expanded, transfected with the GFP gene, and then cryopreserved in liquid nitrogen for 4 weeks. After thawing, cell surface antigen markers and osteogenic potential were analyzed, and the luminescence of these cells was observed by fluorescence microscopy. The results demonstrate that cryopreservation has no effect on the cell phenotype, GFP expression or osteogenic differentiation of UCB-MSCs, showing that cryopreserved GFP-labeled UCB-MSCs might be applied for bone tissue engineering.     

大鼠骨髓间充质干细胞诱导分化为脂肪细胞的免疫细胞化学研究

目的 探讨大鼠骨髓间充质干细胞(mesenchymal stem cells,MSC)分离、纯化和体外诱导分化为脂肪细胞。方法 用密度梯度离心结合贴壁培养、定期换液,分离纯化出生大鼠MSC,传代扩增,并用免疫细胞化学法鉴定大鼠MSC的表面抗原。含地塞米松、3-异丁基-1-甲基黄嘌呤和胰岛素的培养液诱导MSC分化后,油红O染色鉴定。结果 大鼠MSC体外扩增10代以上,稳定表达CD44、CD54、CD106。油红O染色显示诱导后,71.2％有脂滴积聚。结论 从大鼠骨髓分离、纯化、体外诱导培养MSC,可定向分化为脂肪细胞表型。     

Leptin deficiency impairs adipogenesis and browning response in mouse mesenchymal progenitors

Although phenotypically different, brown adipose tissue (BAT) and inguinal white adipose tissue (iWAT) are able to produce heat through non-shivering thermogenesis due to the presence of mitochondrial uncoupling protein 1 (UCP1). The appearance of thermogenically active beige adipocytes in iWAT is known as browning. Both brown and beige cells originate from mesenchymal stem cells (MSCs), and in culture conditions a browning response can be induced with hypothermia (i.e. 32 °C) during which nuclear leptin immunodetection was observed. The central role of leptin in regulating food intake and energy consumption is well recognised, but its importance in the browning process at the cellular level is unclear. Here, immunocytochemical analysis of MSC-derived adipocytes established nuclear localization of both leptin and leptin receptor suggesting an involvement of the leptin pathway in the browning response. In order to elucidate whether leptin modulates the expression of brown and beige adipocyte markers, BAT and iWAT samples from leptin-deficient (ob/ob) mice were analysed and exhibited reduced brown/beige marker expression compared to wild-type controls. When MSCs were isolated and differentiated into adipocytes, leptin deficiency was observed to induce a white phenotype, especially when incubated at 32 °C. These adaptations were accompanied with morphological signs of impaired adipogenic differentiation. Overall, our results indicate that leptin supports adipocyte browning and suggest a potential role for leptin in adipogenesis and browning.     

Down-regulation of CD105 is associated with multi-lineage differentiation in human umbilical cord blood-derived mesenchymal stem cells

Umbilical cord blood-derived mesenchymal stem cells (UCB-MSCs) have multi-lineage differentiation potential, thus highlighting the feasibility of using UCB-MSCs as a valuable source of stem-cells for cell-based therapy. However, there are no well-defined markers for assessment of the multi-potency of UCB-MSCs. Thus, we focused on the identification of suitable markers by examining cell surface protein expressions of UCB-MSCs as their multi-lineage differentiations progressed. The expression of CD105, one of the cell surface proteins, was significantly decreased in differentiated osteoblasts, chondrocytes, adipocytes, and respiratory epithelium, and the portion of CD105-positive cells from 99.4 ± 0.1% to 3.5 ± 1.4%, 3.5 ± 2.3%, 16.7 ± 3.6%, and 2.1 ± 1.5%, respectively. As to such indicators as alkaline phosphatase (ALP), glycosaminoglycan (GAG), oil Red O, and surfactant protein C (SPC), they showed increases, confirming differentiation of UCB-MSCs into osteoblasts, chondrocytes, adipocytes, and respiratory epithelium. This is the first study to demonstrate a negative correlation between expression of CD105 over the time course of multi-lineage differentiation and the degree of differentiation of UCB-MSCs. We propose that CD105 is a useful novel marker to characterize differentiation status of isolated human UCB-MSCs, which will be useful to facilitate the application of such cells in stem-cell therapy.     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的：研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法：采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果：纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论：分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

脐带间充质干细胞——组织工程的新视角

目的 从脐带中分离培养脐带间充质干细胞(mesenchymal stem cell, MSC) 并进行鉴定,阐明其多向分化的潜在作用.方法 收集健康胎儿脐带,分离培养脐带中的间充质干细胞,以流式细胞仪对培养的间充质干细胞进行细胞表面标志检测,多种成分联合诱导其向脂肪、成骨方向分化,细胞化学染色检测诱导后的细胞变化.结果 脐带中分离培养的间充质干细胞不表达造血细胞系的标志CD34、CD45、HLA-DR,强表达CD105、CD44、CD90,在适当的诱导条件下可向脂肪及成骨方向分化.结论 脐带中存在具有多向分化潜能的间充质干细胞.     

Thermogenic Ability of Uncoupling Protein 1 in Beige Adipocytes in Mice

Chronic adrenergic activation leads to the emergence of beige adipocytes in some depots of white adipose tissue in mice. Despite their morphological similarities to brown adipocytes and their expression of uncoupling protein 1 (UCP1), a thermogenic protein exclusively expressed in brown adipocytes, the beige adipocytes have a gene expression pattern distinct from that of brown adipocytes. However, it is unclear whether the thermogenic function of beige adipocytes is different from that of classical brown adipocytes existing in brown adipose tissue. To examine the thermogenic ability of UCP1 expressed in beige and brown adipocytes, the adipocytes were isolated from the fat depots of C57BL/6J mice housed at 24°C (control group) or 10°C (cold-acclimated group) for 3 weeks. Morphological and gene expression analyses revealed that the adipocytes isolated from brown adipose tissue of both the control and cold-acclimated groups consisted mainly of brown adipocytes. These brown adipocytes contained large amounts of UCP1 and increased their oxygen consumption when stimulated with norepinephirine. Adipocytes isolated from the perigonadal white adipose tissues of both groups and the inguinal white adipose tissue of the control group were white adipocytes that showed no increase in oxygen consumption after norepinephrine stimulation. Adipocytes isolated from the inguinal white adipose tissue of the cold-acclimated group were a mixture of white and beige adipocytes, which expressed UCP1 and increased their oxygen consumption in response to norepinephrine. The UCP1 content and thermogenic ability of beige adipocytes estimated on the basis of their abundance in the cell mixture were similar to those of brown adipocytes. These results revealed that the inducible beige adipocytes have potent thermogenic ability comparable to classical brown adipocytes.     

LIGHT regulates the adipogenic differentiation of mesenchymal stem cells

LIGHT is a cytokine belonging to the TNF family. This cytokine has been extensively defined in its role on T‐cell regulation and dendritic cell maturation. It also exhibits the role in liver regeneration. We recently identified its role in regulation of hematopoietic stem cell differentiation. However, the question whether this cytokine regulates mesenchymal stem cells (MSCs) proliferation and/or differentiation remains unknown. In this study, we observed that MSCs express LT‐βR but not HVEM. PCR analysis show LIGHT mRNA is undectable in MSCs. LIGHT did promote neither MSCs proliferation nor migration. However, LIGHT promoted MSCs differentiation into adipocyte which was confirmed by Oil Red O Staining Assay. Since either MSCs or adipocytes are the major cell population in bone marrow niche, we then suggest that LIGHT regulate bone marrow niche, such as MSCs differentiation. J. Cell. Biochem. 114: 346–353, 2013. © 2012 Wiley Periodicals, Inc.     

A comparison of DNA damage induced by aflatoxin B1 in hepatocyte-like cells, their progenitor mesenchymal stem cells and CD34(+) cells isolated from umbilical cord blood

This study compared the sensitivity of differentiated hepatocyte-like cells, their progenitor mesenchymal stem cells (MSCs) and CD34(+) stem cells to DNA damage and toxicity induced by aflatoxin B1 (AFB1). The hepatocyte-like cells and their progenitor cells (isolated from umbilical cord blood (UCB)) were each treated with AFB1 on day 15 of differentiation. Cell toxicity and genotoxicity effects were assessed using MTT and alkaline comet assays. AFB1 treatment resulted in a dose- and time-dependent inhibition of cell growth. The IC(50) values of AFB1 for hepatocytes differentiated from CD34(+) and MSCs were within the same range (44.7-46.8μM). The IC(50) calculated for non-differentiated MSCs and CD34(+) cells was slightly lower (42.0-43.4μM) than that calculated for their differentiated counterparts. However, the extent of DNA damage was different in differentiated and non-differentiated cells. The percentages of DNA (% DNA) in comet tails measured in hepatocytes differentiated from MSCs exposed to AFB1 (0, 2.5, 10 and 20μM) for 24h were ～15, 55, 65 and 70%, respectively. In comparison, hepatocytes from CD34(+) cells were more resistant to AFB1-induced DNA damage. Hepatocyte-MSCs were most sensitive to DNA damage, followed by UCB-CD34(+) cells, then UCB-MSCs and finally hepatocyte-CD34(+) cells. These results clearly showed that stem cells from different sources have different sensitivities to DNA damaging agents. These differences can be assigned to the expression levels of cytochrome P450 (CYP) particularly CYP3A4 in non-differentiated and differentiated cells. These data are useful in better understanding the susceptibility/resistance of stem cells in the process of differentiation to environmental toxicants.     

Establishment of adipose-derived mesenchymal stem cell lines from a p53-knockout mouse

Mesenchymal stem cells (MSCs) can differentiate into a variety of cell types. MSCs exist in several tissues such as the bone marrow, adipose, muscle, cartilage, and tendon. This differentiation potential makes MSCs candidates for cell-based therapeutic strategies for mesenchymal tissue injuries. MSCs can be prepared from bone marrow (BM-MSCs) and adipose (AD-MSCs); however, these MSCs exhibit senescence-associated growth arrest and display inevitable heterogeneity. We established several AD-MSC cell lines from a p53-knockout (KO) mouse. These cell lines were immortalized, but no cell lines grew anchorage-independently, suggesting that they are not cancerous. They differentiated into adipocytes, osteoblasts, and chondrocytes by treatment with certain stimuli. Moreover, following injection into the tail vein, the cells migrated into the wounded region of the liver and differentiated into hepatocytes. We succeeded in establishing several AD-MSC clonal cell lines that maintain the tissue-specific markers and characteristics of the developmental phase. These clonal cell lines will serve as important tools to study the mechanism of differentiation of MSCs.     

Isolation of three important types of stem cells from the same samples of banked umbilical cord blood

It is known that umbilical cord blood (UCB) is a rich source of stem cells with practical and ethical advantages. Three important types of stem cells which can be harvested from umbilical cord blood and used in disease treatment are hematopoietic stem cells (HSCs), mesenchymal stem cells (MSCs) and endothelial progenitor cells (EPCs). Since these stem cells have shown enormous potential in regenerative medicine, numerous umbilical cord blood banks have been established. In this study, we examined the ability of banked UCB collected to produce three types of stem cells from the same samples with characteristics of HSCs, MSCs and EPCs. We were able to obtain homogeneous plastic rapidly-adherent cells (with characteristics of MSCs), slowly-adherent (with characteristics of EPCs) and non-adherent cells (with characteristics of HSCs) from the mononuclear cell fractions of cryopreserved UCB. Using a protocol of 48?h supernatant transferring, we successfully isolated MSCs which expressed CD13, CD44 and CD90 while CD34, CD45 and CD133 negative, had typical fibroblast-like shape, and was able to differentiate into adipocytes; EPCs which were CD34, and CD90 positive, CD13, CD44, CD45 and CD133 negative, adherent with cobble-like shape; HSCs which formed colonies when cultured in MethoCult medium.     

Programming human pluripotent stem cells into white and brown adipocytes

The utility of human pluripotent stem cells is dependent on efficient differentiation protocols that convert these cells into relevant adult cell types. Here we report the robust and efficient differentiation of human pluripotent stem cells into white or brown adipocytes. We found that inducible expression of PPARG2 alone or combined with CEBPB and/or PRDM16 in mesenchymal progenitor cells derived from pluripotent stem cells programmed their development towards a white or brown adipocyte cell fate with efficiencies of 85%-90%. These adipocytes retained their identity independent of transgene expression, could be maintained in culture for several weeks, expressed mature markers and had mature functional properties such as lipid catabolism and insulin-responsiveness. When transplanted into mice, the programmed cells gave rise to ectopic fat pads with the morphological and functional characteristics of white or brown adipose tissue. These results indicate that the cells could be used to faithfully model human disease.     

具有间充质干细胞特征的CD105+细胞在胎儿多种组织器官的分布

CD105是骨髓间充质干细胞的特征性表型之一。为了研究机体各组织器官也存留有间充质干细胞,首先检测胎儿各组织CD105^ 细胞的分布,进而分离胎儿各组织CD105^ 细胞。将CD105^ 细胞向脂肪和成骨细胞诱导分化。结果表明胎儿心、肝、肺、血管、肌肉、皮肤等组织含有CD105^ 间充质干细胞。在间充质干细胞分化为脂肪细胞时,CD105表达明显下降。地塞米松可以促进脂肪细胞形成并提高了培养液中甘油三酯的含量。而向成骨细胞分化时,诱导的成骨细胞胞浆内外有电子密度高的钙盐沉积。以上结果提示,分布于多种组织的间充质干细胞异常分化可能与疾病的发生有关。     

Comparative investigation of the differentiation capability of bone-marrow- and adipose-derived mesenchymal stem cells by qualitative and quantitative analysis

Mesenchymal stem cells (MSCs) hold promise for cell-based therapy in regenerative medicine. To date, MSCs have been obtained from conventional bone marrow via a highly invasive procedure. Therefore, MSCs are now also isolated from sources such as adipose tissue, cord blood and cord stroma, a subject of growing interest. As the characterization and differentiation potential of adipose-derived MSCs (AD-MSCs) and bone-marrow-derived MSCs (BM-MSCs) have not been documented, we have evaluated and compared the characteristics of both MSC types by qualitative and quantitative analyses. Both cell types show similar morphology and surface protein expression, being positive for stromal-associated markers and negative for hematopoietic and endothelial markers. The colony-forming potential of AD-MSCs is distinctly higher than that of BM-MSCs. Nonetheless, similar adipogenic and osteogenic differentiation is observed in both groups of MSCs. Cytochemical qualitative analysis and calcium mineralization demonstrate higher levels toward osteogenic differentiation in BM-MSCs than in AD-MSCs. On the contrary, the percentage of Nile red oil staining for differentiated adipocytes is higher in AD-MSCs than in BM-MSCs. Quantitative real-time polymerase chain reaction shows similar patterns of osteogenic- and adipogenic-associated gene expression in both cell types. Each of the MSCs respond in functional analysis by exhibiting unique properties at the differentiation level according to their micro-environmental niche. Thus, quantitative analysis might be a valuable means of describing stem cell multipotency, in addition to qualitative investigation.