分离与培养人脂肪组织间充质干细胞的研究

目的：探索人脂肪组织源性间充质干细胞（ASCs）的分离、体外培养,为其广泛应用提供实验依据。方法：无菌条件下获取腹部手术病人皮下脂肪组织,酶消化法分离、培养ASCs,观察细胞形态并绘制细胞生长曲线,计算细胞群体倍增时间;对第2代细胞进行免疫组织化学染色,鉴定其表面分子CD44表达;取2—4代细胞用含体积分数为10％胎牛血清、1％青链霉素原液、1μmmol／L地塞米松、10μmmol／L胰岛素、0．5mmmol／LIBMX的高糖DMEM培养基中诱导培养一周,观察细胞形态变化,并用油红“O”染色定性。结果：人脂肪组织中含有大量间充质干细胞,呈成纤维细胞样贴壁生长,细胞群体倍增时间为55h左右;免疫化学染色鉴定CD44阳性;成脂诱导分化一周,可见细胞内有大量脂滴,油红“0”染色可见胞浆内有大量红染颗粒。结论：建立了一种自人体脂肪组织分离,培养ASCs经济简便的方法,为其能够作为组织工程理想的种子细胞及广泛应用于临床提供实验依据。     

Monitoring the biology stability of human umbilical cord-derived mesenchymal stem cells during long-term culture in serum-free medium

Mesenchymal stem cells (MSCs) are multipotent adult stem cells that have an immunosuppressive effect. The biological stability of MSCs in serum-free medium during long-term culture in vitro has not been elucidated clearly. The morphology, immunophenotype and multi-lineage potential were analyzed at passages 3, 5, 10, 15, 20, and 25 (P₃, P₅, P₁₀, P₁₅, P₂₀, and P₂₅, respectively). The cell cycle distribution, apoptosis, and karyotype of human umbilical cord-derived (hUC)-MSCs were analyzed at P₃, P₅, P₁₀, P₁₅, P₂₀, and P₂₅. From P₃ to P₂₅, the three defining biological properties of hUC-MSCs [adherence to plastic, specific surface antigen expression, multipotent differentiation potential] met the standards proposed by the International Society for Cellular Therapy for definition of MSCs. The cell cycle distribution analysis at the P₂₅ showed that the percentage of cells at G0/G1 was increased, compared with the cells at P₃ (P < 0.05). Cells at P₂₅ displayed an increase in the apoptosis rate (to 183 %), compared to those at P₃ (P < 0.01). Within subculture generations 3–20 (P₃–P₂₀), the differences between the cell apoptotic rates were not statistically significant (P > 0.05). There were no detectable chromosome eliminations, displacements, or chromosomal imbalances, as assessed by the karyotyping guidelines of the International System for Human Cytogenetic Nomenclature (ISCN, 2009). Long-term culture affects the biological stability of MSCs in serum-free MesenCult-XF medium. MSCs can be expanded up to the 25th passage without chromosomal changes by G-band. The best biological activity period and stability appeared between the third to 20th generations.     

Suitability of human mesenchymal stem cells for gene therapy depends on the expansion medium

Great hope is set in the use of mesenchymal stem cells for gene therapy and regenerative medicine. Since the frequency of this subpopulation of stem cells in bone marrow is low, mesenchymal stem cells are expanded ex vivo and manipulated prior to experimental or clinical use. Different methods for isolation and expansion are available, but the particular effect on the stem cell character is unclear. While the isolation of mesenchymal stem cells by density centrifugation followed by selection of the plastic adherent fraction is frequently used, the composition of expansion media differs. Thus, in the present study we cultured mesenchymal stem cells isolated from five healthy young volunteers in three widely used expansion media and performed a detailed analysis of the effect on morphology, proliferation, clonogenicity, passaging, differentiation and senescence. By this way we clearly show that the type of expansion medium used determines the stem cell character and time of senescence which is critical for future gene therapeutic and regenerative approaches using mesenchymal stem cells.     

骨髓间充质干细胞无血清培养

为建立一种化学成分明确的、能用于体外扩增骨髓间充质干细胞的无血清培养基, 且骨髓间充质干细胞经无血清培养扩增后仍能保持其多向分化的潜能。采用密度梯度离心结合贴壁法从1月龄新西兰大白兔股骨中分离骨髓间充质干细胞, 比较在含10%胎牛血清的培养基(SCM)和自制的化学成分明确的无血清培养基(CDSFM)中骨髓间充质干细胞的形态、增殖能力, 以及扩增后的骨髓间充质干细胞的细胞周期、集落形成能力和成骨、成脂肪分化能力。经过10 d的培养, 骨髓间充质干细胞在自制的无血清培养基中扩增了50倍, 在含10%胎牛血清的培养基中扩增了40倍。在无血清和有血清培养基中扩增后的细胞中G0/G1期比例分别为(80.31%±0.6%)和(75.24%±4.0%), 两者无显著差异(P>0.05)。无血清培养扩增后的骨髓间充质干细胞集落形成率(12.7%±4.0%)低于有血清培养组(28.7%±4.2%), 两者比较差异显著(P<0.01)。经过无血清培养扩增的骨髓间充质干细胞在成骨、成脂肪诱导分化培养基中能够分化成成骨和脂肪细胞。自制的化学成分明确的无血清培养基能够在体外培养扩增骨髓间充质干细胞, 并且维持其干细胞特性, 可以用于细胞治疗以及生物医学研究。     

Conditioned medium from renal tubular epithelial cells initiates differentiation of human mesenchymal stem cells

Objectives: Mesenchymal–epithelial interactions play a pivotal role in tubular morphogenesis and in maintaining the integrity of the kidney. During renal repair, similar mechanisms may regulate cellular reorganization and differentiation. We have hypothesized that soluble factors from proximal tubular epithelial cells (PTC) induce differentiation of adipose-derived adult mesenchymal stem cells (ASC). This hypothesis has been tested using cultured ASC and PTC.
Material and methods: Conditioned medium was prepared from injured PTC and transferred to ASC cultures. ASC proliferation was analysed by a fluorometric and photometric assay. Signal transduction was analysed by phosphorylation of extracellular signal-regulated kinase 1 and 2 (ERK1/ERK2). Grade of ASC differentiation was assessed by morphological analysis and cell expression of characteristic markers.
Results: Conditioned medium significantly induced proliferation and phosphorylation of ERK1/ERK2 of ASC. After 12 days of incubation, cell morphology changed to an epithelial-like monolayer. Expression of cytokeratin 18 was induced by conditioned medium, while α-smooth muscle actin, CD49a and CD90 expression decreased. These alterations strongly indicate onset of the differentiation process to the epithelial lineage. In summary, soluble factors from PTC induce signal transduction and differentiation of ASC.
Conclusions: Our study shows that conditioned medium from renal tubular epithelial cells provides a convenient source of inductive signals to initiate differentiation of ASC towards epithelial lineage. We deduce that these interactions may play an important role during renal repair mechanisms.     

Effects of culture conditions on osteogenic differentiation in human mesenchymal stem cells

Human bone marrow-derived mesenchymal stem cells (hBMMSCs) must differentiate into osteogenic cells to allow for successful bone regeneration. In this study, we investigated the effects of different combinations of three soluble osteogenic differentiation-inducing factors [L-ascorbic acid (AC), beta-glycerophosphate (betaG), and bone morphogenic protein-2 (BMP-2)] and the presence of a hydroxyapatite (HA) substrate on hBMMSC osteogenic differentiation in vitro. hBMMSCs were cultured in medium containing various combinations of the soluble factors on culture plates with or without HA coating. After 7 days of culture, alkaline phosphatase (ALP) activity, calcium deposition, and osteoprotegerin (OPG) and osteopontin (OPN) expression were measured. The effects of individual and combined factors were evaluated using a factorial analysis method. BMP-2 predominantly affected expression of early markers of osteogenic differentiation (ALP and OPG). HA had the highest positive effect on OPN expression and calcium deposition. The interaction between AC, betaG, and HA had the second highest positive effect on ALP activity.     

Feeder-free culture of human embryonic stem cells in conditioned medium for efficient genetic modification

Realizing the potential of human embryonic stem cells (hESCs) in research and commercial applications requires generic protocols for culture, expansion and genetic modification that function between multiple lines. Here we describe a feeder-free hESC culture protocol that was tested in 13 independent hESC lines derived in five different laboratories. The procedure is based on Matrigel adaptation in mouse embryonic fibroblast conditioned medium (CM) followed by monolayer culture of hESC. When combined, these techniques provide a robust hESC culture platform, suitable for high-efficiency genetic modification via plasmid transfection (using lipofection or electroporation), siRNA knockdown and viral transduction. In contrast to other available protocols, it does not require optimization for individual lines. hESC transiently expressing ectopic genes are obtained within 9 d and stable transgenic lines within 3 weeks.     

Explant culture: An advantageous method for isolation of mesenchymal stem cells from human tissues

Mesenchymal stem cell (MSC) research progressively moves towards clinical phases. Accordingly, a wide range of different procedures were presented in the literature for MSC isolation from human tissues; however, there is not yet any close focus on the details to offer precise information for best method selection. Choosing a proper isolation method is a critical step in obtaining cells with optimal quality and yield in companion with clinical and economical considerations. In this concern, current review widely discusses advantages of omitting proteolysis step in isolation process and presence of tissue pieces in primary culture of MSCs, including removal of lytic stress on cells, reduction of in vivo to in vitro transition stress for migrated/isolated cells, reduction of price, processing time and labour, removal of viral contamination risk, and addition of supporting functions of extracellular matrix and released growth factors from tissue explant. In next sections, it provides an overall report of technical highlights and molecular events of explant culture method for isolation of MSCs from human tissues including adipose tissue, bone marrow, dental pulp, hair follicle, cornea, umbilical cord and placenta. Focusing on informative collection of molecular and methodological data about explant methods can make it easy for researchers to choose an optimal method for their experiments/clinical studies and also stimulate them to investigate and optimize more efficient procedures according to clinical and economical benefits.     

Optimization of serum free medium for cord blood mesenchymal stem cells

Human umbilical cord blood harbors mesenchymal stem cells (MSCs), which can give rise to several mesenchymal lineages. In order to explore their usages in medical applications, the ex vivo expansion of MSCs to sufficient cell numbers is necessary. Additionally, the development of a serum-free medium becomes indispensable for elimination of possible contaminants from the serum-containing medium during expansion. Using fractional factorial designs combined with the steepest ascent approach, we have developed a serum-free medium that could ex vivo expand MSCs over nine passages, resulting in at least 1000-fold increases in cell number within 1-month. Based on Iscove's modified Dulbecco's medium, this medium formulation includes bFGF (17.91 ng/mL), human albumin (2.80 mg/mL), hydrocortisone (27.65 μM) and SITE (1.18%, v/v). The expanded MSCs in the designed medium preserved differentiation potentials into three mesenchymal lineages in vitro, including chondrocytes, adipocytes and osteoblasts. In conclusion, we optimized a serum-free and defined culture medium for cord blood-derived MSCs, which could be applied to cell-based therapy and biomedical research.     

Stability of human mesenchymal stem cells during in vitro culture: considerations for cell therapy

Ex vivo expansion and manipulation of human mesenchymal stem cells are important approaches to immunoregulatory and regenerative cell therapies. Although these cells show great potential for use, issues relating to their overall nature emerge as problems in the field. The need for extensive cell quantity amplification in vitro to obtain sufficient cell numbers for use, poses a risk of accumulating genetic and epigenetic abnormalities that could lead to sporadic malignant cell transformation. In this study, we have examined human mesenchymal stem cells derived from bone marrow, over extended culture time, using cytogenetic analyses, mixed lymphocyte reactions, proteomics and gene expression assays to determine whether the cultures would retain their potential for use in subsequent passages. Results indicate that in vitro cultures of these cells demonstrated chromosome variability after passage 4, but their immunomodulatory functions and differentiation capacity were maintained. At the molecular level, changes were observed from passage 5 on, indicating initiation of differentiation. Together, these results lead to the hypothesis that human mesenchymal stem cells cultures can be used successfully in cell therapy up to passage 4. However, use of cells from higher passages would have to be analysed case by case.     

A slowly proliferating subpopulation in human umbilical cord mesenchymal stem cells in culture

In this report, a slow-growing subpopulation of human umbilical cord mesenchymal stromal cells (MSCs) was identified. These cells were around 5 μm in diameter and their relative gravity was between 1.031 and 1.043 g/ml. In sharp contrast to the parent MSCs, they expressed highly CD271 and poorly the receptor for platelet-derived growth factor. Quantitative PCR with the identification of the products by DNA sequencing proved that these cells expressed Nanog at a higher level than cells from the other subpopulation (approximately 30-fold), which was further confirmed by western blotting. Furthermore, they did not grow at clonal density and depletion of these cells from the population had little effect on the colony formation of the parent MSCs. The results here indicate that a subpopulation of cells with special biological features exist in human cord MSCs in culture.     

Isolation of mesenchymal stem cells from human placenta: comparison with human bone marrow mesenchymal stem cells

The presence within bone marrow of a population of mesenchymal stem cells (MSCs) able to differentiate into a number of different mesenchymal tissues, including bone and cartilage, was first suggested by Friedenstein nearly 40 years ago. Since then MSCs have been demonstrated in a variety of fetal and adult tissues, including bone marrow, fetal blood and liver, cord blood, amniotic fluid and, in some circumstances, in adult peripheral blood. MSCs from all of these sources can be extensively expanded in vitro and when cultured under specific permissive conditions retain their ability to differentiate into multiple lineages including bone, cartilage, fat, muscle, nerve, glial and stromal cells. There has been great interest in these cells both because of their value as a model for studying the molecular basis of differentiation and because of their therapeutic potential for tissue repair and immune modulation. However, MSCs are a rare population in these tissues. Here we tried to identify cells with MSC-like potency in human placenta. We isolated adherent cells from trypsin-digested term placentas and examined these cells for morphology, surface markers, and differentiation potential and found that they expressed several stem cell markers. They also showed endothelial and neurogenic differentiation potentials under appropriate conditions. We suggest that placenta-derived cells have multilineage differentiation potential similar to MSCs in terms of morphology and cell-surface antigen expression. The placenta may prove to be a useful source of MSCs.     

Chondrogenic differentiation of human mesenchymal stem cells within an alginate layer culture system

Human mesenchymal stem cells (hMSCs) derived from bone marrow have the capacity to differentiate along a number of connective tissue pathways and are an attractive source of chondrocyte precursor cells. When these cells are cultured in a three-dimensional format in the presence of transforming growth factor-beta, they undergo characteristic morphological changes concurrent with deposition of cartilaginous extracellular matrix (ECM). In this study, factors influencing hMSC chondrogenesis were investigated using an alginate layer culture system. Application of this system resulted in a more homogeneous and rapid synthesis of cartilaginous ECM than did micromass cultures and presented a more functional format than did alginate bead cultures. Differentiation was found to be dependent on initial cell seeding density and was interrelated to cellular proliferation. Maximal glycosaminoglycan (GAG) synthesis defined an optimal hMSC seeding density for chondrogenesis at 25 x 10(6) cells/ml. Inclusion of hyaluronan in the alginate layer at the initiation of cultures enhanced chondrogenic differentiation in a dose-dependent manner, with maximal effect seen at 100 microg/ml. Hyaluronan increased GAG synthesis at early time points, with greater effect seen at lower cell densities, signifying cell-cell contact involvement. This culture system offers additional opportunities for elucidating conditions influencing chondrogenesis and for modeling cartilage homeostasis or osteoarthritic changes.     

人羊膜间充质细胞分离培养及其干细胞特性研究

目的:研究人羊膜间充质细胞(Humanamnioticmesenchymalcells,HAMCs)的分离、培养及其干细胞特性,为羊膜间充质细胞在再生医学的潜在应用奠定实验基础。方法:无菌条件下取正常足月剖腹产胎儿的羊膜剪成碎片,经胰酶胶原酶序贯消化,DMEM/F12培养,倒置显微镜下观察其形态,MTT法检测其生长规律,免疫荧光的方法对细胞进行鉴定,定向诱导方法检测细胞的多向分化潜能。结果:来源于羊膜的间充质细胞,细胞免疫荧光显示SSEA-4,OCT-4阳性,具有很强的增殖能力,并且具有一定的多向分化能力,在特定条件下可分化为脂肪细胞和成骨细胞;结论:羊膜间充质细胞能够在体外分离、培养、扩增,并且具有干细胞特性。羊膜间充质细胞在再生医学和组织工程应用有很好的前景。     

人羊膜间充质细胞分离培养及其干细胞特性研究

目的：研究人羊膜间充质细胞（Humanamnioticmesenchymalcells,HAMCs）的分离、培养及其干细胞特性,为羊膜间充质细胞在再生医学的潜在应用奠定实验基础。方法：无菌条件下取正常足月剖腹产胎儿的羊膜剪成碎片,经胰酶胶原酶序贯消化,DMEM/F12培养,倒置显微镜下观察其形态,MTT法检测其生长规律,免疫荧光的方法对细胞进行鉴定,定向诱导方法检测细胞的多向分化潜能。结果：来源于羊膜的间充质细胞,细胞免疫荧光显示SSEA-4,OCT-4阳性,具有很强的增殖能力,并且具有一定的多向分化能力,在特定条件下可分化为脂肪细胞和成骨细胞;结论：羊膜间充质细胞能够在体外分离、培养、扩增,并且具有干细胞特性。羊膜间充质细胞在再生医学和组织工程应用有很好的前景。     

Growth of cells on solid culture medium

Summary For precise experiments with yeast (or other) cells stationary populations are produced by growth on the surface of a solid nutrient medium. The energy supply to these cells is well known from a former publication. The oxygen supply during growth is analysed here in detail. Different types of cell populations can be produced in this way dependent on the thickness of nutrient medium.If such cells are transferred into a liquid buffer solution cell multiplication can be initiated without any nutrient flux into the cell. This new type of initiation of the cell cycle of G₁-cells has to be distinguished from the usual initiation by nutrient supply and from the mechanism of meiotic cell division. The dependence of this cell growth on cell volume, pH-value, oxygen concentration and osmotic pressure is analysed and possibilities to avoid this kind of cell multiplication reaction are discussed.     

A simple protocol for transfecting human mesenchymal stem cells

Objectives and results

Mesenchymal stromal cells (MSCs) are potential targets for cell and gene therapy-based approaches against a variety of different diseases. The MSCs from bone marrow are a promising target population as they are capable of differentiating along multiple lineages and have significant expansion capability. These characteristics make them strong candidates for delivering genes and restoring organ systems function. However, as other primary cells, MSCs are difficult to transfect. In order to standardize a simple protocol for transfection of MSCs, we conducted a series of experiments and achieved a protocol that does not require the use of viral particles or specific expensive equipment.

Conclusion

MSCs transfection at early passages using a ratio lipid/DNA of 3.0 µL/µg with Lipofectamine 3000^® yields good transfection efficiencies for human MSCs (up to 26%) and is rapid, simple, and safe.