The Role of Calcium in Differentiation of Human Adipose-Derived Stem Cells to Adipocytes

Differentiation process of mesenchymal stem cells (MSCs) into adipocyte is involved in obesity. Multiple factors such as Ca²⁺ play important roles in different stages of this process. Because of the complicated roles of Ca²⁺ in adipogenesis, the aim of present investigation was to study the influx and efflux of Ca²⁺ into and out of the cells during adipogenesis. Adipose-derived MSCs were used to differentiate into adipocytes. MSCs were exposed to 2.5 mM Ca²⁺ or 1.8 mM Ca²⁺ plus calcium ionophore, A23187, for 3 days. Lipid staining, triglycerides (TG) content, and glyceraldehyde phosphate dehydrogenase (GAPDH) activity were evaluated to confirm the efficiency of the differentiation. Gene expression of GLUT4, PPARγ2, RAR-α, and calreticulin, as well as the protein levels of GLUT4 and PPARγ2 were determined. Ca²⁺ and in particular Ca²⁺ plus A23187 significantly lowered the efficiency of differentiation accompanied by decrease in intracellular TG deposits, GAPDH activity and alleviation of gene, and protein levels of GLUT4 and PPARγ2. While calreticulin and RAR-α were remarkably upregulated in A23187 group. This study showed the inhibitory effects of calcium in adipogenesis. Additionally, it indicated the greater inhibitory effect of calreticulin and RAR-α in controlling adipogenesis by higher levels of calcium.     

Neural Differentiation of Rat Adipose-Derived Stem Cells in Vitro

It is reported that adipose-derived stem cells (ADSCs) had multilineage differentiation potential, and could differentiate into neuron-like cells induced by special induction media, which may provide a new idea for restoration of erectile dysfunction (ED) after cavernous nerve injury. The aim of this research was to explore the neuronal differentiation potential of ADSCs in vitro. ADSCs isolated from inguinal adipose tissue of rat were characterized by flow cytometry, and results showed that ADSCs were positive for mesenchymal stem cell markers CD90 and CD44, but negative for hematopoietic stem cell markers. ADSCs maintained self-renewing capacity and could differentiate into adipocytes and neurocytes under special culture condition. In this research, two methods were used to induce ADSCs. In method 1, ADSCs were treated with the preinduction medium including epithelium growth factor, basic fibroblast growth factor, and brain derived neurotrophic factor (BDNF) for 3?days, then with the neurogenic induction medium containing isobutylmethylxanthine, indomethacin, and insulin. While in method 2, BDNF was not used to treat ADSCs. After induction, neuronal differentiation of ADSCs was evaluated. Neuronal markers, glial fibrillary acidic protein (GFAP), and ??-tubulin III (Tuj-1) were detected by immunofluorescence and Western Blot analyses. The expressions of GFAP and Tuj-1 in method 1 were obviously higher then those in method 2. In addition, the positive rate of the neuron-like cells was higher in method 1. It suggested that ADSCs are able to differentiate into neural-like cells in vitro, and the administration of BDNF in the preinduction medium may provide a new way to modify the culture method for getting more neuron-like cells in vitro.     

Reversible Modulation of Myofibroblast Differentiation in Adipose-Derived Mesenchymal Stem Cells

Unregulated activity of myofibroblasts, highly contractile cells that deposit abundant extracellular matrix (ECM), leads to fibrosis. To study the modulation of myofibroblast activity, we used human adipose-derived mesenchymal stem cells (ADSCs), which have much potential in regenerative medicine. We found that ADSCs treated with TGF-β developed a myofibroblastic phenotype with increases in α-smooth muscle actin (α-SMA), a myofibroblast marker, and ECM proteins type I collagen and fibronectin. In contrast, treatment with bFGF had the opposite effect. bFGF-differentiated ADSCs showed marked down-regulation of α-SMA expression, collagen I, and fibronectin, and loss of focal adhesions and stress fibers. Functionally, bFGF-differentiated ADSCs were significantly more migratory, which correlated with up-regulation of tenascin-C, an anti-adhesive ECM protein, and vimentin, a pro-migratory cytoskeletal protein. On the other hand, TGF-β-differentiated ADSCs were significantly more contractile than bFGF-differentiated cells. Interestingly, cells completely reversed their morphologies, marker expression, signaling pathways, and contractility versus migratory profiles when switched from culture with one growth factor to the other, demonstrating that the myofibroblast differentiation process is not terminal. Cell differentiation was associated with activation of Smad2 downstream of TGF-β and of ERK/MAP kinase downstream of bFGF. Reversibility of the TGF-β-induced myofibroblastic phenotype depends, in part, on bFGF-induced ERK/MAP kinase signaling. These findings show that ADSC differentiation into myofibroblasts and re-differentiation into fibroblast-like cells can be manipulated with growth factors, which may have implications in the development of novel therapeutic strategies to reduce the risk of fibrosis.     

Different Porosities of Chitosan Can Influence the Osteogenic Differentiation Potential of Stem Cells

Scaffolds porosity has an important role in in vitro and in vivo differentiation process of stem cells with given the amount of space available to the cells to proliferate and differentiate. In the present study, chitosan with three porosities including 10%, 15%, and 20% that created by gelatin were used for investigation of the proliferation and osteogenic differentiation potential of adipose‐derived stem cells (ADSCs). In order to be more like the scaffold to natural bone tissue, freeze‐drying method was used in the scaffold preparation. Scaffold morphology, cell attachment, and toxicity were evaluated using scanning electron microscopy and MTT assay. Then, osteogenic differentiation potential of ADSCs cultured on chitosan with different porosities was evaluated by common osteogenic markers such as Alizarin red staining, ALP activity, calcium content, and osteogenic‐related genes expression via real‐time RT‐PCR. Although all scaffolds supported the proliferation and differentiation of ADSCs, but 10% scaffold demonstrated higher amount of osteogenic markers in comparison with the other porosities and control groups. Taking together, it can be concluded that osteogenic differentiation well done in the scaffolds with lower porosity because density of the cells will increase by forcing resulted from the scaffold, so osteogenic differentiation of the stem cells have an inverse association with scaffold porosity. J. Cell. Biochem. 119: 625–633, 2018. © 2017 Wiley Periodicals, Inc.     

Xenotransplantation of Human Adipose-Derived Stem Cells in Zebrafish Embryos

Zebrafish is a widely used animal model with well-characterized background in developmental biology. The fate of human adipose-derived stem cells (ADSCs) after their xenotransplantation into the developing embryos of zebrafish is unknown. Therefore, human ADSCs were firstly isolated, and then transduced with lentiviral vector system carrying a green fluorescent protein (GFP) reporter gene, and followed by detection of their cell viability and the expression of cell surface antigens. These GFP-expressing human ADSCs were transplanted into the zebrafish embryos at 3.3–4.3 hour post-fertilization (hpf). Green fluorescent signal, the proliferation and differentiation of human ADSCs in recipient embryos were respectively examined using fluorescent microscopy and immunohistochemical staining. The results indicated that human ADSCs did not change their cell viability and the expression levels of cell surface antigens after GFP transduction. Microscopic examination demonstrated that green fluorescent signals of GFP expressed in the transplanted cells were observed in the embryos and larva fish at post-transplantation. The positive staining of Ki-67 revealed the survival and proliferation of human ADSCs in fish larvae after transplantation. The expression of CD105 was observable in the xenotransplanted ADSCs, but CD31 expression was undetectable. Therefore, our results indicate that human ADSCs xenotransplanted in the zebrafish embryos not only can survive and proliferate at across-species circumstance, but also seem to maintain their undifferentiation status in a short term. This xenograft model of zebrafish embryos may provide a promising and useful technical platform for the investigation of biology and physiology of stem cells in vivo.     

Cell Proliferation and Neuroblast Differentiation in the Rat Dentate Gyrus After Intrathecal Treatment with Adipose-Derived Mesenchymal Stem Cells

Mesenchymal stem cells (MSC) have emerged as a new therapeutic tool for a number of clinical applications, because they have multipotency and paracrine effects via various factors. In the present study, we investigated the effects of adipose-derived MSC (Ad-MSC) transplantation via intrathecal injection through the cisterna magna on cell proliferation and differentiation of endogenous stem cells in the hippocampal dentate gyrus (DG) using Ki-67 (a marker for proliferating cells), and doublecortin (DCX, a marker for neuroblasts). The transplanted Ad-MSC were detected in the meninges, not in the hippocampal parenchyma. However, the number of Ki-67-immunoreactive cells was significantly increased by 83% in the DG 2 days after single Ad-MSC injection, and by 67% at 23 days after repeated Ad-MSC treatment compared with that in the vehicle-treated group after Ad-MSC transplantation. On the other hand, the number of DCX-immunoreactive cells in the DG was not changed at 2 days after single Ad-MSC injection; however, it was significantly increased by 62% 9 days after single Ad-MSC injection. At 23 days after repeated Ad-MSC application, the number of DCX-immunoreactive cells was much more increased (223% of the vehicle-treated group). At this time point, DCX protein levels were also significantly increased compared with those in the vehicle-treated group. These results suggest that the intrathecal injection of Ad-MSC could enhance endogenous cell proliferation, and the repeated Ad-MSC injection could be more efficient for an enhancement of endogenous cell proliferation and differentiation in the brain.     

Chemically Defined and Xeno-Free Cryopreservation of Human Adipose-Derived Stem Cells

The stromal compartment of adipose tissue harbors multipotent cells known as adipose-derived stem cells (ASCs). These cells can differentiate into various lineages including osteogenic, chrondrogenic, adipogenic, and neurogenic; this cellular fraction may be easily obtained in large quantities through a clinically safe liposuction procedure. Therefore, ASCs offer exceptional opportunities for tissue engineering and regenerative medicine. However, current practices involving ASCs typically use fetal bovine serum (FBS)-based cryopreservation solutions that are associated with risks of immunological reactions and of transmitting infectious diseases and prions. To realize clinical applications of ASCs, serum- and xeno-free defined cryopreservation methods are needed. To this end, an animal product-free chemically defined cryopreservation medium was formulated by adding two antioxidants (reduced glutathione and ascorbic acid 2-phosphate), two polymers (PVA and ficoll), two permeating cryoprotectants (ethylene glycol and dimethylsulfoxide), a disaccharide (trehalose), and a calcium chelator (EGTA) to HEPES-buffered DMEM/F12. To limit the number of experimental groups, the concentration of trehalose, both polymers, and EGTA was fixed while the presence of the permeating CPAs and antioxidants was varied. ASCs suspended either in different versions of the defined medium or in the conventional undefined cryopreservation medium (10% dimethylsulfoxide+10% DMEM/F12+80% serum) were cooled to -70°C at 1°C/min before being plunged into liquid nitrogen. Samples were thawed either in air or in a water bath at 37°C. The presence of antioxidants along with 3.5% concentration of each penetrating cryoprotectant improved the freezing outcome to the level of the undefined cryopreservation medium, but the plating efficiency was still lower than that of unfrozen controls. Subsequently, increasing the concentration of both permeating cryoprotectants to 5% further improved the plating efficiency to the level of unfrozen controls. Moreover, ASCs cryopreserved in this defined medium retained their multipotency and chromosomal normality. These results are of significance for tissue engineering and clinical applications of stem cells.     

Morphology-Based Prediction of Osteogenic Differentiation Potential of Human Mesenchymal Stem Cells

Human bone marrow mesenchymal stem cells (hBMSCs) are widely used cell source for clinical bone regeneration. Achieving the greatest therapeutic effect is dependent on the osteogenic differentiation potential of the stem cells to be implanted. However, there are still no practical methods to characterize such potential non-invasively or previously. Monitoring cellular morphology is a practical and non-invasive approach for evaluating osteogenic potential. Unfortunately, such image-based approaches had been historically qualitative and requiring experienced interpretation. By combining the non-invasive attributes of microscopy with the latest technology allowing higher throughput and quantitative imaging metrics, we studied the applicability of morphometric features to quantitatively predict cellular osteogenic potential. We applied computational machine learning, combining cell morphology features with their corresponding biochemical osteogenic assay results, to develop prediction model of osteogenic differentiation. Using a dataset of 9,990 images automatically acquired by BioStation CT during osteogenic differentiation culture of hBMSCs, 666 morphometric features were extracted as parameters. Two commonly used osteogenic markers, alkaline phosphatase (ALP) activity and calcium deposition were measured experimentally, and used as the true biological differentiation status to validate the prediction accuracy. Using time-course morphological features throughout differentiation culture, the prediction results highly correlated with the experimentally defined differentiation marker values (R>0.89 for both marker predictions). The clinical applicability of our morphology-based prediction was further examined with two scenarios: one using only historical cell images and the other using both historical images together with the patient''s own cell images to predict a new patient''s cellular potential. The prediction accuracy was found to be greatly enhanced by incorporation of patients'' own cell features in the modeling, indicating the practical strategy for clinical usage. Consequently, our results provide strong evidence for the feasibility of using a quantitative time series of phase-contrast cellular morphology for non-invasive cell quality prediction in regenerative medicine.     

Increased Adipogenesis of Human Adipose-Derived Stem Cells on Polycaprolactone Fiber Matrices

With accelerating rates of obesity and type 2 diabetes world-wide, interest in studying the adipocyte and adipose tissue is increasing. Human adipose derived stem cells - differentiated to adipocytes in vitro - are frequently used as a model system for white adipocytes, as most of their pathways and functions resemble mature adipocytes in vivo. However, these cells are not completely like in vivo mature adipocytes. Hosting the cells in a more physiologically relevant environment compared to conventional two-dimensional cell culturing on plastic surfaces, can produce spatial cues that drive the cells towards a more mature state. We investigated the adipogenesis of adipose derived stem cells on electro spun polycaprolactone matrices and compared functionality to conventional two-dimensional cultures as well as to human primary mature adipocytes. To assess the degree of adipogenesis we measured cellular glucose-uptake and lipolysis and used a range of different methods to evaluate lipid accumulation. We compared the averaged results from a whole population with the single cell characteristics – studied by coherent anti-Stokes Raman scattering microscopy - to gain a comprehensive picture of the cell phenotypes. In adipose derived stem cells differentiated on a polycaprolactone-fiber matrix; an increased sensitivity in insulin-stimulated glucose uptake was detected when cells were grown on either aligned or random matrices. Furthermore, comparing differentiation of adipose derived stem cells on aligned polycaprolactone-fiber matrixes, to those differentiated in two-dimensional cultures showed, an increase in the cellular lipid accumulation, and hormone sensitive lipase content. In conclusion, we propose an adipocyte cell model created by differentiation of adipose derived stem cells on aligned polycaprolactone-fiber matrices which demonstrates increased maturity, compared to 2D cultured cells.     

间充质干细胞对造血干/祖细胞分化为巨核细胞的影响

目的:探讨间充质干细胞(MSC)共培养对体外诱导脐带血单个核细胞来源的造血干/祖细胞生成巨核细胞的影响。方法:分离得到骨髓和脐带2种来源的MSC,并对它们进行表面标志和多向分化能力的鉴定,同时通过实时定量PCR及对RT-PCR产物的电泳分析,对比相同培养代数下2种MSC表达造血因子的情况;用梯度离心法分离得到单个核细胞,通过直接接触或Trans-well分隔的方式分别与MSC共培养,观察细胞增殖情况,并检测巨核系特异性的表面标志和相关基因的表达。结果:骨髓和脐带来源的MSC均分泌对巨核细胞增殖分化有促进作用的造血因子,与造血干/祖细胞直接共培养,对于巨核细胞的增殖有明显的促进作用,分化效果不明显;在非接触共培养的条件下,对巨核细胞的增殖及分化都产生促进作用,且骨髓来源的MSC较脐带来源的MSC效果更加明显。结论:MSC与脐带血造血干/祖细胞非接触培养,对其向巨核分化和增殖的促进作用明显,本实验所用的骨髓来源MSC促分化效果更好。本研究为今后进一步优化巨核系诱导分化体系奠定了基础,并对未来体外大规模制备巨核系祖细胞应用于临床治疗有一定的指导作用。     

培养基血清浓度对人表皮干细胞增殖分化的影响

目的:比较不同血清浓度培养体系对表皮干细胞增殖分化的影响.方法:采用两步酶消化法和IV型胶原差速贴壁相结合的方法获得人原代表皮干细胞,分别以0%、5%、10%、15%和20%血清浓度的培养基在96孔板中进行培养.观察表皮干细胞形态,克隆形成及增殖的情况,应用四甲基偶氯唑蓝(MTT)比色法检测各组细胞存活和生长情况,分析量效和时效关系;持续传代培养细胞,每次传代的同时取适量细胞,用免疫细胞化学的方法进行表皮干细胞和表皮细胞相应标志物(K19、K14和K10)的测定.结果:表皮干细胞在各种血清浓度的培养基内均能形成克隆,增殖良好.用四甲基偶氮唑蓝(MTT)比色法测定,所得相同时间点各组OD值在统计学上没有差异(P>0.05),表皮干细胞生长速度各组间无差异.第1代表皮干细胞K19均有表达,而K14和K10表达均为阴性;其后高血清浓度(15%、20%)培养基中细胞较低血清浓度(0%、5%)先出现K14、K10蛋白的表达;培养至第10代是各组细胞均出现K10高表达,而K19、K14表达阴性.结论:在低血清浓度(0%、5%)的培养基中表皮干细胞生长良好,且能够相对较好保持表皮干细胞的特性.     

Comparative Effect of Human Platelet Derivatives on Proliferation and Osteogenic Differentiation of Menstrual Blood-Derived Stem Cells

Menstrual blood has been recognized as an easily accessible and inexpensive source of stem cells, in recent years. To establish a safe and efficient protocol for development of menstrual blood-derived stem cells (MenSCs) into osteoblasts, the effect of substitution of fetal bovine serum (FBS) with human platelet derivatives (HPDs) was evaluated during proliferation and osteogenic differentiation of MenSCs. To this aim, parallel experiments were carried out on cultured MenSCs in the presence of platelet-rich plasma, platelet-poor plasma, platelet gel supernatant, or human platelet releasate (HPR), and compared with cells cultured in conventional growth medium containing FBS. There was no significant difference between growth curves of cultured MenSCs in presence of different fortified media. However, the MenSCs demonstrated variant differentiation patterns in response to FBS replacement with HPDs. Mineralization, as judged by Alizarin red staining, was significantly higher in cells differentiated in the presence of HPR compared to cells that were fortified with other medium supplements. A greater osteocalcin production level, alkaline phosphatase activity, and mRNA expression of osteogenic-specific genes in differentiated MenSCs under HPR condition further confirmed our previous findings. Based on our data, FBS substitution by HPDs not only allows for successful MenSCs proliferation, but also promotes MenSCs development into osteoblasts. The effectiveness of HPR on osteogenic differentiation of MenSCs represents an important novel step toward safe and applied stem cell therapy of bone diseases.     

Effect of CGRP-Adenoviral Vector Transduction on the Osteoblastic Differentiation of Rat Adipose-Derived Stem Cells

Calcitonin gene-related peptide (CGRP) promotes osteoblast recruitment and osteogenic activity. However, no evidence suggests that CGRP could affect the differentiation of stem cells toward osteoblasts. In this study, we genetically modified adipose-derived stem cells (ADSCs) by introducing the CGRP gene through adenoviral vector transduction and investigated on cellular proliferation and osteoblast differentiation in vitro and osteogenesis in vivo as well. For the in vitro analyses, rat ADSCs were transducted with adenoviral vectors containing the CGRP gene (Ad-CGRP) and were cultured in complete osteoblastic medium. The morphology, proliferative capacity, and formation of localized regions of mineralization in the cells were evaluated. The expression of alkaline phosphatase (ALP) and special markers of osteoblasts, such as Collagen I, Osteocalcin (BPG) and Osteopontin (OPN), were measured by cytochemistry, MMT, RT-PCR, and Western blot. For the in vivo analyses, the Ad-CGRP-ADSCs/Beta-tricalcium phosphate (β-TCP) constructs were implanted in rat radial bone defects for 12 weeks. Radiography and histomorphology evaluations were carried out on 4 weeks and 12 weeks. Our analyses indicated that heterogeneous spindle-shaped cells and localized regions of mineralization were formed in the CGRP-transduced ADSCs (the transduced group). A higher level of cellular proliferation, a high expression level of ALP on days 7 and 14 (p<0.05), and increased expression levels of Collagen I, BPG and OPN presented in transduced group (p<0.05). The efficiency of new bone formation was dramatically enhanced in vivo in Ad-CGRP-ADSCs/β-TCP group but not in β-TCP group and ADSCs/β-TCP group. Our results reveal that ADSCs transduced with an Ad-CGRP vector have stronger potential to differentiate into osteoblasts in vitro and are able to regenerate a promising new tissue engineering bone in vivo. Our findings suggest that CGRP-transduced ADSCs may serve as seed cells for bone tissue engineering and provide a potential way for treating bone defects.     

Therapeutic Potential of Human Adipose-Derived Stem Cells (ADSCs) from Cancer Patients: A Pilot Study

Mesenchymal stem cells from adipose tissue (ADSCs) are an important source of cells for regenerative medicine. The therapeutic effect of culture-expanded adipose derived stem cells has been shown; however, optimal xeno-free culture conditions remain to be determined. Cancer patients, specifically those undergoing invasive surgery, constitute a subgroup of patients who could benefit from autologous stem cell transplantation. Although regenerative potential of their ADSCs could be affected by the disease and/or treatment, we are not aware of any study that has evaluated the therapeutic potential of ADSCs isolated from cancer patients in reference to that of ADSCs derived from healthy subjects. Here we report that ADSCs isolated from subabdominal adipose tissue of patients with urological neoplasms yielded similar growth kinetics, presented equivalent mesenchymal surface markers and showed similar differentiation potential into distinct mesodermal cell lineages: adipocytes, chondroblasts and osteoblasts than ADSCs isolated from adipose tissue of age-matched non-oncogenic participants, all under xeno-free growth culture conditions. Molecular karyotyping of patient expanded ADSCs genomes showed no disease-related alterations indicating their safety. In addition, vesicles <100 nm identified as exosomes (EXOs) which may be at least partly responsible for the attributed therapeutic paracrine effects of the ADSCs were effectively isolated from ADSCs and showed equivalent miRNA content regardless they were derived from cancer patients or non-oncogenic participants indicating that the repair capabilities of xeno-free expanded ADSCs are not compromised by patient condition and therefore their xeno-free culture expanded ADSCs should be suitable for autologous stem cell transplantation in a clinical setting.     

睾丸间质干细胞增殖分化及其调控

睾丸间质干细胞（stem Leydig cells, SLCs）是哺乳动物睾丸间质内的一种成体干细胞,可以分化成为成熟的睾丸间质细胞,参与精子发生。目前,仅在人、大鼠和小鼠中成功分离出SLCs,并证实其具有分化成为睾酮分泌细胞的潜能。最新研究发现：PDGFRα、Nestin、Thy-1、CD51和COUP-TFII等可作为SLCs的分子标记,但并不具有特异性。迄今,只在大鼠中建立了SLCs的基本分离培养体系。因此,本文拟从大鼠等SLCs的分子标记、分离培养条件、增殖分化调控以及哺乳动物LCs在精子发生过程中作用的研究进展等作一综述,以期为哺乳动物SLCs研究提供科学参考。     

脂肪来源干细胞体外成骨和成脂及成神经的诱导分化研究

目的:探讨脂肪来源干细胞体外成骨和成脂及成神经的诱导分化情况。方法:选取10只SPF级雄性SD大鼠,将其不同部位的脂肪组织取出,分别采用不同方法对其向成骨、成脂及成神经等方向进行诱导分化并对其结果进行鉴定。结果:ADSC表达中,CD29占(99.11±0.13)%,CD44占(95.94±0.71)%,CD45占(0.12±0.09)%。经4周的成骨诱导后,茜素红S染色在细胞团中央发现红色钙化结节存在,碱性磷酸酶染色在细胞的胞质内观察到紫红色颗粒,经7d成脂诱导后,油红"O"染色在细胞质内观察到橙红色脂滴;经过6d的神经干培养基诱导后,通过免疫荧光染色证明诱导的Nestin细胞、神经丝蛋白-200以及GFAP等均出现阳性表达。结论:ADSC具备向脂肪、成骨及神经元等细胞进行多向分化的潜能,具有来源广、易于操作、体外增殖快速等优越性,并且不存在免疫排斥及医学伦理学问题,发展前景广阔。     

Quantum Dot Labeling of Stem Cells during Proliferation and Differentiation

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