Metformin facilitates the proliferation,migration, and osteogenic differentiation of periodontal ligament stem cells in vitro

Periodontitis is one of the main causes of tooth loss and has been confirmed as the sixth complication of diabetes. Metformin promotes the osteogenic differentiation of stem cells. Periodontal ligament stem cells (PDLSCs) are the best candidate stem cells for periodontal tissue regeneration. Herein, we aimed to identify the effects of metformin on the proliferation, migration, and osteogenic differentiation of PDLSCs in vitro. PDLSCs were isolated by limiting dilution, and their characteristics were assessed by colony formation assay and flow cytometry. Cell counting and migration assays were used to investigate the effects of metformin on proliferation and migration. The osteogenic differentiation ability of PDLSCs was detected by alkaline phosphatase (ALP) activity and Alizarin Red S staining. Gene and protein levels of osteogenesis‐related markers were determined by quantitative real‐time polymerase chain reaction (qRT‐PCR) and western blot analysis, respectively. Metformin treatment at 10 μM did not affect PDLSC proliferation, while at 50 and 100 μM, metformin time‐dependently enhanced PDLSC proliferation and significantly increased cell numbers after 5 and 7 days of stimulation (P < 0.05). In addition, 50 μM metformin exhibited a maximal effect on migration, ALP activity, and mineral deposition (P < 0.05). Furthermore, 50 μM metformin significantly upregulated the gene expression levels of ALP, BSP, OPN, OCN, and Runx2 and the protein expression of ALP and Runx2 (P < 0.05). In summary, our study confirms that metformin facilitates the proliferation, migration, and osteogenic differentiation of PDLSCs in vitro and could be used as a new strategy for periodontal tissue regeneration.     

Role of integrin beta1-like protein in proliferation and differentiation of cultured stem cells from midgut of Heliothis virescens

Cultured midgut cells from Heliothis virescens larvae were incubated with anti-human integrin beta1 made in rabbit and then passed over a column of magnetic beads bound to anti-rabbit IgG (MACS, Miltenyi Bergisch Gladbach, Germany). Cells bound to integrin beta1 antibody also bound to the anti-rabbit IgG on the magnetic beads (MACS) and were retained in the column while it remained in the magnetic field. Non-bound cells were eluted at this time. They did not stain with anti-integrin antibody just after elution. Removing the column from the magnetic field allowed cells bound to the beads-integrin beta1 antibody to be eluted. All of these cells stained with human anti-integrin beta1 upon elution. Each cell fraction was cultured in medium for 3 days. During this time, the populations of cells tended to return to heterogeneous staining patterns characteristic of control populations. However, cells that did not stain immediately with anti-integrin beta1 antibody exhibited double the rate of multiplication and 8 times more differentiation than the integrin-antibody positive cells that eluted later, as well as the non-treated control cells. In a second experiment, midgut cells were incubated for 4 days with various titers of human anti-integrin beta1 to block surface integrin beta1-like reactive sites. Stem cells blocked with anti-integrin beta1 antibody during incubation exhibited double the rate of differentiation than non-treated control cells and those showing anti-integrin beta1-positive stain upon elution.     

低氧对胚胎干细胞增殖的影响

目的:观察间歇性低氧和持续性低氧对体外培养的胚胎干细胞(ES细胞)增殖的影响.方法:利用细胞记数法和BrdU (5-溴脱氧尿苷)掺入的流式细胞分析检测细胞增殖,并用RT -PCR的方法检测低氧诱导因子(HIF-1a)的表达变化.结果:①将ES细胞分别放在低氧(3%～10% O2)和常氧(20% O2)的环境中培养24 h后,在低氧环境中培养的ES细胞数较常氧组明显减少;②将ES细胞分别给予间歇性低氧刺激(3%～10% O2),每天10 min,连续4 d后,发现3%低氧组较常氧对照组的细胞增殖明显升高.③用RT-PCR方法观察HIF-1a的表达与细胞增殖的关系,发现在常氧环境中培养的ES即有HIF-1a的表达,ES细胞在持续低氧24 h或间歇性低氧(3%～10% O2)刺激4 d后对HIF-1a的表达均无明显影响.结论:间歇性低氧(3% O2)可明显促进体外培养的ES细胞增殖,而持续性低氧抑制ES细胞增殖,间歇性低氧(3% O2)刺激促进ES细胞增殖的机制尚有待于进一步的研究.     

Effect of microgravity on proliferation and differentiation of embryonic stem cells in an automated culturing system during the TZ‐1 space mission

Objective

Despite a great number of studies analysing the effects of microgravity on stem cell proliferation and differentiation, few of them have focused on real‐time imaging estimates in space. Herein, we utilized the TZ‐1 cargo spacecraft, automatic cell culture equipment and live cell imaging techniques to examine the effects of real microgravity on the proliferation and differentiation of mouse embryonic stem cells (mESCs).

Materials and methods

Oct4‐GFP, Brachyury‐GFP mESC and Oct4‐GFP mESC‐derived EBs were used as experimental samples in the TZ‐1 spaceflight mission. These samples were seeded into chambers, cultured in an automatic cell culture device and were transported into space during the TZ‐1 mission. Over 15 days of spaceflight, bright field and fluorescent images of cell growth were taken in micrography, and the medium was changed every day. Real‐time image data were transferred to the ground for analysis.

Results

Space microgravity maintains stemness and long‐term survival of mESCs, promising 3D aggregate formation. Although microgravity did not significantly prevent the migration of EBs on the ECM substrate, it did prevent terminal differentiation of cells.

Conclusions

This study demonstrates that space microgravity might play a potential role in supporting 3D cell growth and maintenance of stemness in embryonic stem cells, while it may negatively affect terminal differentiation.

     

Dermal mesenchymal stem cells promoted adhesion and migration of endothelial cells by integrin in psoriasis

The unusual dilatation of dermal capillaries and angiogenesis played important roles in psoriasis. Some genes and proteins of dermal mesenchymal stem cells (DMSCs) from psoriasis are abnormal and related to the function of endothelial cells (ECs). The present study was aimed to evaluate whether psoriatic DMSCs could affect adhesion and migration of ECs through neovascularization-related integrins in psoriasis. Human DMSCs, collected from psoriasis lesions and healthy skin, respectively, were cocultured with human umbilical vein endothelial cells (HUVECs). The expression levels of three integrins, that is, αvβ3, αvβ5, and α5β1 in HUVECs were tested by quantitative real-time polymerase chain reaction and Western blot analysis. The adhesion and migration of HUVECs were detected by adhesion assay and migration assay. The results showed that in psoriasis group, the expression of αVβ3 and α5β1 of HUVECs markedly increased 2.50- and 3.71-fold in messenger RNA levels, and significantly increased 1.63- and 1.92-fold in protein levels, comparing to healthy control group (all p < .05). But β5 was not significantly different between the two groups (p > .05). In addition, compared with control, psoriatic DMSCs promoted HUVECs adhesion by 1.62-fold and migration by 2.91-fold (all p < .05). In conclusion, psoriatic DMSCs impact HUVECs adhesion and migration by upregulating the expression of integrins αVβ3 and α5β1.     

Chondrogenic differentiation of mouse embryonic stem cells promoted by mature chondrocytes

In order to direct embryonic stem (ES) cells to differentiate into chondrocytes, a chondrogenic envi-ronment provided by mature chondrocytes was investigated. Flk-1 positive cells sorted from pre-differentiated mouse ES cells were mixed with adult porcine articular chondrocytes, seeded on biodegradable scaffolds, and then implanted subcutaneously into nude mice. The cell-scaffold com-plexes formed cartilage tissues after 4 weeks, which was demonstrated by histology and anti-type II collagen antibody staining. Positive staining of mouse Major Histocompatibility Complex class I molecules confirmed that part of the chondrocytes were derived from mouse ES cells. The current study established a new approach for directing ES cell differentiation.     

溶血磷脂酸促进离体大鼠胚胎神经干细胞的增殖及其向胆碱能神经元分化

溶血磷脂酸（1ysophosphatidic acid,LPA）是一种细胞外磷脂信号。本研究用[^3H]-胸腺嘧啶掺入法、免疫细胞化学和Western blot等技术,观察了LPA对体外培养的大鼠胚胎神经干细胞（neural stem cells,NSCs）的增殖以及向MAF2标记的一般神经元和ChAT标记的胆碱能神经元的分化的影响。结果显示：（1）在特殊的无血清培养基中加入低浓度的LPA（0．01-1．0μmol/L）后,NSCs对【^3H】-胸腺嘧啶的摄入呈剂量依赖性增加,表明LPA对NSCs有显著的促增殖作用;（2）在培养基中加入胎牛血清以诱导NSCs的分化,发现低浓度的LPA增加MAF2阳性和ChAT阳性神经元的比例,0．1μmol／L LPA引起的增加达到峰值;（3）Western blot分析显示LPA促进了MAP2和ChAT的表达;（4）在诱导NSCs出现分化早期,用倒置显微镜观察到低浓度的LPA明显促进细胞突起的生长和细胞的迁移。以上结果表明,低浓度LPA在一定范围内可以促进NSCs的增殖、并分化为一般的MAP2阳性神经元和特殊的胆碱能神经元,而且LPA可以促进在分化早期出现的神经元或神经胶质细胞前体细胞的迁移和突起生长。     

miR-335 orchestrates cell proliferation, migration and differentiation in human mesenchymal stem cells

In spite of the extensive potential of human mesenchymal stem cells (hMSCs) in cell therapy, little is known about the molecular mechanisms that regulate their therapeutic properties. We aimed to identify microRNAs (miRNAs) involved in controlling the transition between the resting and reparative phenotypes of hMSCs, hypothesizing that these miRNAs must be present in the undifferentiated cells and downregulated to allow initiation of distinct activation/differentiation programs. Differential miRNA expression analyses revealed that miR-335 is significantly downregulated upon hMSC differentiation. In addition, hMSCs derived from a variety of tissues express miR-335 at a higher level than human skin fibroblasts, and overexpression of miR-335 in hMSCs inhibited their proliferation and migration, as well as their osteogenic and adipogenic potential. Expression of miR-335 in hMSCs was upregulated by the canonical Wnt signaling pathway, a positive regulator of MSC self-renewal, and downregulated by interferon-γ (IFN-γ), a pro-inflammatory cytokine that has an important role in activating the immunomodulatory properties of hMSCs. Differential gene expression analyses, in combination with computational searches, defined a cluster of 62 putative target genes for miR-335 in hMSCs. Western blot and 3'UTR reporter assays confirmed RUNX2 as a direct target of miR-335 in hMSCs. These results strongly suggest that miR-335 downregulation is critical for the acquisition of reparative MSC phenotypes.     

bFGF promotes adipocyte differentiation in human mesenchymal stem cells derived from embryonic stem cells

In this work we describe the establishment of mesenchymal stem cells (MSCs) derived from embryonic stem cells (ESCs) and the role of bFGF in adipocyte differentiation. The totipotency of ESCs and MSCs was assessed by immunofluorescence staining and RT-PCR of totipotency factors. MSCs were successfully used to induce osteoblasts, chondrocytes and adipocytes. MSCs that differentiated into adipocytes were stimulated with and without bFGF. The OD/DNA (optical density/content of total DNA) and expression levels of the specific adipocyte genes PPARγ2 (peroxisome proliferator activated receptor γ2) and C/EBPs were higher in bFGF cells. Embryonic bodies had a higher adipocyte level compared with cells cultured in plates. These findings indicate that bFGF promotes adipocyte differentiation. MSCs may be useful cells for seeding in tissue engineering and have enormous therapeutic potential for adipose tissue engineering.     

Hepatocyte growth factor plays a dual role in tendon-derived stem cell proliferation,migration, and differentiation

Heterotopic ossification is common in tendon healing after trauma, but the detailed mechanisms remain unknown. Tendon-derived stem cells (TDSCs) are a type of progenitor cell found in the tendon niche, and their incorrect differentiation after trauma may lead to tendon calcification. The expression of hepatocyte growth factor (HGF) presents drastic fluctuations in serum/tissue after trauma and was found to activate quiescent stellate cells and contribute to wound healing; however, its potential role in TDSCs remains elusive. In this study, TDSCs isolated from rats were cultured in media containing HGF with or without a signaling inhibitor, and the proliferation, migration, and differentiation ability of TDSCs were measured to determine the role and mechanism of HGF in TDSCs. We showed that HGF promotes TDSC proliferation and migration but inhibits TDSC osteogenic differentiation ability. HGF activated-HGF/c-Met, mitogen-activated protein kinase (MAPK)/extracellular signal-regulated protein kinases 1 and 2 (ERK1/2), and phosphoinositide 3-kinase (PI3K)/protein kinase B (AKT) signaling, which was positively correlated with TDSCs proliferation and migration but negatively related to TDSC osteogenic differentiation ability. The phosphorylation of Smad1/5/8 was also negatively related to HGF/c-Met, MAPK/ERK1/2, and PI3K/AKT signaling, which demonstrated that the inhibition of osteogenic differentiation was dependent on BMP/Smad1/5/8 signaling. Overall, we showed that HGF could promote TDSCs proliferation and migration and inhibit osteogenic differentiation in vitro, suggesting a potential role for HGF as a cytokine treatment of tendon trauma.     

Progress in studies on the induction and differentiation of embryonic stem cells

Embryonic stem cells (ESCs), which are isolated from the inner cell mass of the blastocyst stage embryo, have the potential to give rise to an entire organism and to generate every body cell type. Much improvement has been made in the field of induction and differentiation of ESCs during the last two years, such as the ESCs differentiation into germ cells (2003) and the cloning of human ESCs (2004), both of which were chosen respectively as one of the top ten achievements evaluated by academic journals. Great attention was also paid to the research of the new genes which could maintain ESCs in the undifferentiated state and the research of the induction and differentiation of ESCs.     

Extrinsic regulation of cardiomyocyte differentiation of embryonic stem cells

Cardiovascular disease is one of leading causes of death throughout the U.S. and the world. The damage of cardiomyocytes resulting from ischemic injury is irreversible and leads to the development of progressive heart failure, which is characterized by the loss of functional cardiomyocytes. Because cardiomyocytes are unable to regenerate in the adult heart, cell-based therapy of transplantation provides a potential alternative approach to replace damaged myocardial tissue and restore cardiac function. A major roadblock toward this goal is the lack of donor cells; therefore, it is urgent to identify the cardiovascular cells that are necessary for achieving cardiac muscle regeneration. Pluripotent embryonic stem (ES) cells have enormous potential as a source of therapeutic tissues, including cardiovascular cells; however, the regulatory elements mediating ES cell differentiation to cardiomyocytes are largely unknown. In this review, we will focus on extrinsic factors that play a role in regulating different stages of cardiomyocyte differentiation of ES cells.     

Acute exposure to triphenyl phosphate inhibits the proliferation and cardiac differentiation of mouse embryonic stem cells and zebrafish embryos

Attention has recently paid to the interaction of triphenyl phosphate (TPHP) and body tissues, particularly within the reproductive and development systems, due to its endocrine-disrupting properties. However, the acute effects of TPHP on early embryonic development remain unclear. Here, we used mouse embryonic stem cells (mESC) and zebrafish embryos to investigate whether TPHP is an embryo toxicant. First, we found that continuous exposure of TPHP decreased the proliferation and increased the apoptotic populations of mESCs in a concentration-dependent manner. Results of mass spectrometry showed that the intracellular concentration of TPHP reached 39.45 ± 7.72 µg/g w/w after 3 hr of acute exposure with TPHP (38.35 μM) but gradually decreased from 3 hr to 48 hr. Additionally, DNA damage was detected in mESCs after a short-term treatment with TPHP, which in turn, activated DNA damage responses, leading to cell cycle arrest by changing the expression levels of p53, proliferating cell nuclear antigen, and Y15-phosphorylated Cdk I. Furthermore, our results revealed that short-term treatment with TPHP disturbed cardiac differentiation by decreasing the expression levels of Oct4, Sox2, and Nanog and transiently reduced the glycolysis capacity in mESCs. In zebrafish embryos, exposure to TPHP resulted in broad, concentration-dependent developmental defects and coupled with heart malformation and reduced heart rate. In conclusion, the two models demonstrate that acute exposure to TPHP affects early embryonic development and disturbs the cardiomyogenic differentiation.     

胚胎干细胞诱导分化为雄性生殖细胞的研究进展

胚胎干细胞（embryonic stem cells,ES细胞）具有自我更新及无限分化潜能,理论上可以分化为生殖细胞。目前,在人及鼠中已有体外诱导ES细胞分化为成熟精子的报道。系统阐述影响ES细胞分化为雄性生殖细胞的内源性及外源性因素,并结合国内外最新研究进展总结其诱导分化方法,展望应用前景,期望为从事相关研究的学者提供参考。     

Neural differentiation of human embryonic stem cells

Availability of human embryonic stem cells (hESC) has enhanced human neural differentiation research. The derivation of neural progenitor (NP) cells from hESC facilitates the interrogation of human embryonic development through the generation of neuronal subtypes and supporting glial cells. These cells will likely lead to novel drug screening and cell therapy uses. This review will discuss the current status of derivation, maintenance and further differentiation of NP cells with special emphasis on the cellular signaling involved in these processes. The derivation process affects the yield and homogeneity of the NP cells. Then when exposed to the correct environmental signaling cues, NP cells can follow a unique and robust temporal cell differentiation process forming numerous phenotypes.     

Platelet endothelial aggregation receptor-1 regulates bovine muscle satellite cell migration and differentiation via integrin beta-1 and focal adhesion kinase

PEAR1 is highly expressed at bovine MDSC differentiation. However, its biological function remains unclear. Western blotting results showed that PEAR1 increased between day 0 and day 2 of cell differentiation and decreased from day 3. Moreover, scratch test showed that wound healing rate increased after PEAR1 overexpression and decreased upon its suppression. Meanwhile, we found that, upon PEAR1 induction, both the expression of the focal adhesion-associated and MyoG, and the myotube fusion rate increased. However, when PEAR1 was suppressed, opposite results were obtained. Immunoprecipitation revealed an association between PEAR1 and ITGB1. Notably, inhibition of FAK and ITGB1 repressed cell differentiation. In conclusion, our study indicated that PEAR1 is involved in the regulation of bovine MDSC migration and differentiation.     

Progress in studies on the induction and differentiation of embryonic stem cells

Embryonic stem cells (ESCs), which are isolated from the inner cell mass of the blastocysts, have the potential to give rise to an entire organism and to gen-erate every body cell type. During the last two years, much progress has been made in ESCs field, espe-cially in the induction and differentiation of ESCs. 1 ESCs differentiate into cells of different types 1.1 ESCs differentiate into germ cells In 2003, it was reported that mouse ESCs could differentiate into oocyte[1]. Oct-4 was …     

1号染色体长臂扩增削弱人胚胎干细胞神经分化潜能

目的探讨1号染色体长臂（1q）的扩增对人胚胎干细胞（hESCs）神经分化的影响。 方法通过对H9 hESCs克隆化培养的方法获得1q扩增的hESCs系。中期染色体计数的方法明确细胞内的染色体数目,核型分析鉴定染色体变异的情况,全基因组测序（WGS）分析基因组片段拷贝数变异的情况。使用碱性磷酸酶（AP）染色法检测细胞干性维持的情况,RT-qPCR和免疫荧光染色等方法检测胚胎干细胞（ESCs）标志物OCT4、SOX2、NANOG、REX1和SSEA4等的表达。拟胚体（EB）形成实验进行hESCs不定向分化、全反式视黄酸（RA）诱导hESCs向外胚层分化、使用STEMdiff? SMADi Neural Induction Kit诱导hESCs向神经祖细胞（NPCs）定向分化,并通过RT-qPCR、AP染色和免疫荧光染色等方法检测其分化能力。两组间比较采用独立样本t检验。 结果分离获得一株1q发生2个拷贝扩增的细胞,核型分析发现额外获得的2个1q是等臂染色体,核型为[47,XX,+i （1q）],将其命名为Amp （1q）。Amp （1q）AP染色呈阳性,且表达ESCs标志物OCT4、SOX2、NANOG、REX1和SSEA4,具备干细胞自我更新的特征。EB分化过程中,与H9细胞相比,Amp （1q）向外胚层的分化能力下降,MAP2 （29.67±1.53比66.67±1.15）和PAX6 （8001±567.09比28308.00±1692.50）的表达降低（P均< 0.05）;RA诱导分化实验进一步证明,与H9细胞相比,Amp （1q）存在向外胚层分化的缺陷,MAP2 （22.50±3.54比42.50±2.12）和PAX6 （5403.00±569.93比38756.00±1068.44）的表达降低（P均< 0.05）。当定向诱导向神经谱系分化时,Amp （1q）形成NPCs的能力降低,NPCs标志物PAX6的表达水平低于H9细胞（13.83±3.75比88.33±1.53） （P均< 0.05）。 结论Amp （1q）具有ESCs自我更新的能力,但1q的扩增会削弱hESCs神经分化的能力。