Fat pad-derived mesenchymal stem cells as a potential source for cell-based adipose tissue repair strategies

Background: Mesenchymal stem cells are able to undergo adipogenic differentiation and present a possible alternative cell source for regeneration and replacement of adipose tissue. The human infrapatellar fat pad is a promising source of mesenchymal stem cells with many source advantages over from bone marrow. It is important to determine whether a potential mesenchymal stem‐cell exhibits tri‐lineage differentiation potential and is able to maintain its proliferation potential and cell‐surface characterization on expansion in tissue culture. We have previously shown that mesenchymal stem cells derived from the fat pad can undergo chondrogenic and osteogenic differentiation, and we characterized these cells at early passage. In the study described here, proliferation potential and characterization of fat pad‐derived mesenchymal stem cells were assessed at higher passages, and cells were allowed to undergo adipogenic differentiation. Materials and methods: Infrapatellar fat pad tissue was obtained from six patients undergoing total knee replacement. Cells isolated were expanded to passage 18 and proliferation rates were measured. Passage 10 and 18 cells were characterized for cell‐surface epitopes using a range of markers. Passage 2 cells were allowed to undergo differentiation in adipogenic medium. Results: The cells maintained their population doubling rates up to passage 18. Cells at passage 10 and passage 18 had cell‐surface epitope expression similar to other mesenchymal stem cells previously described. By staining it was revealed that they highly expressed CD13, CD29, CD44, CD90 and CD105, and did not express CD34 or CD56, they were also negative for LNGFR and STRO1. 3G5 positive cells were noted in cells from both passages. These fat pad‐derived cells had adipogenic differentiation when assessed using gene expression for peroxisome proliferator‐activated receptor γ2 and lipoprotein lipase, and oil red O staining. Discussion: These results indicate that the cells maintained their proliferation rate, and continued expressing mesenchymal stem‐cell markers and pericyte marker 3G5 at late passages. These results also show that the cells were capable of adipogenic differentiation and thus could be a promising source for regeneration and replacement of adipose tissue in reconstructive surgery.     

Successful isolation and ex vivo expansion of human mesenchymal stem/stromal cells obtained from different synovial tissue-derived (biopsy) samples

Mesenchymal stromal cells (MSC) isolated from synovial tissues constitute a novel source of stem-like cells with promising applications in cartilage regeneration and potentially in other regenerative medicine and tissue-engineering settings. Detailed characterization of these cells is lacking, thus compromising their full potential. Here we present the detailed characterization of the ex vivo expansion of synovium-derived stromal cells collected by three different biopsy methods: synovium-direct biopsy, arthroscopic trocar shaver blade filtrate, and cells isolated from synovial fluid (SF) samples. Isolation success rates were >75% for all sources. MSC obtained from the different samples displayed the characteristic immunophenotype of adult MSC, expressing CD73, CD90, and CD105. Arthroscopic shaver blade-derived cells showed the higher proliferation capacity measured by the fold increase (FI) in total cell number over several passages and considering their cumulative population doublings (CPD; 15 ± 0.85 vs. 13 ± 0.73 for synovium vs. 11 ± 0.97 for SF). Also, these cells were able to sustain an increased proliferation under hypoxic (2% O₂) conditions (FI 55 ± 4 vs. 37 ± 7) after 17 days in culture. Expanded cells were able to differentiate successfully along the osteogenic, adipogenic, and chondrogenic lineages in vitro. Overall, these results demonstrate that synovial tissues represent a promising source for the isolation of human MSC, while depicting the variability associated to the biopsy method used, which impact cell behavior in vitro.     

Human chorion-derived stem cells: changes in stem cell properties during serial passage

Background aimsFetal membrane from human placenta tissue has been described as a potential source of stem cells. Despite abundant literature on amnion stem cells, there are limited studies on the stem cell properties of chorion-derived stem cells.MethodsThe main aim was to determine the stemness properties of serial-passaged human chorion-derived stem cells (hCDSC). Quantitative polymerase chain reaction (PCR) was performed to reveal the following stemness gene expression in serial-passaged hCDSC: Oct-4, Sox-2, FGF-4, Rex-1, TERT, Nanog (3), Nestin, FZD-9, ABCG-2 and BST-1. Cell growth rate was evaluated from passage (P) 1 until P5. The colony-forming unit–fibroblast (CFU-F) frequency of P3 and P5 cells and multilineage differentiation potential of P5 cells were determined. The immunophenotype of hCDSC was compared using the surface markers CD9, CD31, CD34, CD44, CD45, CD73, CD90, CD117, HLA-ABC and HLA-DR, -DP and -DQ. Immunostaining for trophoblast markers was done on P0, P1, P3 and P5 cells to detect the contamination of trophoblasts in culture, while chromosomal abnormality was screened by cytogenetic analysis of P5 cells.ResultsThe surface markers for mesenchymal lineage in hCDSC were more highly expressed at P5 compared with P3 and P0, indicating the increased purity of these stem cells after serial passage. Indeed, all the stemness genes except TERT were expressed at P1, P3 and P5 hCDSC. Furthermore, human chorion contained high clonogenic precursors with a 1:30 CFU-F frequency. Successful adipogenic, chondrogenic and osteogenic differentiation demonstrated the multilineage potential of hCDSC. The karyotyping analysis showed hCDSC maintained chromosomal stability after serial passage.ConclusionshCDSC retain multipotent potential even at later passages, hence are a promising source for cell therapy in the future.     

Human mesenchymal progenitor cells derived from alveolar bone and human bone marrow stromal cells: a comparative study

The aim of the present study was to evaluate the potential of intraoral harvested alveolar bone as an alternative source of multipotent mesenchymal stromal cells for future applications in oral and maxillofacial tissue engineering. Explant cultures were established from 20 alveolar bone samples harvested from the oblique line immediately before wisdom tooth removal. Morphology and proliferation characteristics of the in vitro expanded cells, referred to as human alveolar bone-derived cells (hABDCs), were studied using phase-contrast microscopy. Immunocytochemical analysis of their surface marker expression was conducted using monoclonal antibodies defining mesenchymal stromal cells. To evaluate their multilineage differentiation potential, hABDCs were induced to differentiate along the osteogenic, adipogenic, and chondrogenic lineage and compared to bone marrow mesenchymal stromal cells (hBMSCs) on mRNA and protein levels applying RT-PCR and cytochemical staining methods. hABDCs showed typical morphological characteristics comparable to those of hBMSCs such as being mononuclear, fibroblast-like, spindle-shaped, and plastic adherent. Immunophenotypically, cells were positive for CD105, CD90, and CD73 while negative for CD45, CD34, CD14, CD79α, and HLA-DR surface molecules, indicating an antigen expression pattern considered typical for multipotent mesenchymal stromal cells. As evidenced by RT-PCR and cytochemistry, hABDCs showed multilineage differentiation and similar chondrogenic and osteogenic differentiation potentials when compared to hBMSCs. Our findings demonstrate that human alveolar bone contains mesenchymal progenitor cells that can be isolated and expanded in vitro and are capable of trilineage differentiation, providing a reservoir of multipotent mesenchymal cells from an easily accessible tissue source.     

Progenitor cells from cartilage—No osteoarthritis‐grade‐specific differences in stem cell marker expression

Tissue engineering efforts for the fabrication of cartilage substitutes head toward applicability in osteoarthritis (OA). Progenitor cells can be harvested from the osteoarthritic joint itself, resembling multipotent mesenchymal stromal cells (MSC). Our objective was to analyze MSC characteristics of those cells in respect to the OA‐related damage of their harvest site. OA cartilage was obtained from six patients during alloarthroplastic knee surgery, sample grading was done according to Outerbridge's classification. Upon enzymatic dissociation, primary chondrocytes were expanded in two‐dimensional monolayer culture. At distinct cell passages, the process of dedifferentiation was phenotypically monitored; cell surface expression of classical MSC markers was analyzed by flow cytometry. Cells were subjected to chondrogenesis and osteogenesis after their fourth passage. At third passage, 95% of cells became positive for cluster of differentiation (CD)105 and further subclassification revealed that the majority of them were positive for both CD73 and CD90. CD105⁺CD73⁺CD90⁺ phenotype meets thus the minimal surface antigen criteria for MSC definition. More than one‐third of dedifferentiated chondrocytes displayed a coexpression of CD9⁺CD166⁺CD90⁺ and to a lesser extent CD105⁺CD73⁺CD44⁺, irrespective of the stage of the original cartilage degradation. Finally, we could successfully demonstrate a redifferentiation of these progenitors into sulfated glycosaminoglycan producing cells. The basic level of alkaline phosphatase activity could not be enhanced upon osteogenic differentiation. In conclusion, chondrogenic progenitors derived from OA cartilages with low or high Outerbridge's grade can be seen as a potential cellular source for cartilage replacement. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2013     

Rheumatoid arthritis synovial stromal cells inhibit apoptosis and up-regulate Bcl-xL expression by B cells in a CD49/CD29-CD106-dependent mechanism

Inflammatory sites, such as rheumatoid arthritis (RA) synovial tissue, contain large numbers of activated B cells and plasma cells. However, the mechanisms maintaining B cell viability and promoting their differentiation are not known, but interactions with stromal cells may play a role. To examine this, purified human peripheral B cells were cultured with a stromal cell line (SCL) derived from RA synovial tissue, and the effects on apoptosis and expression of Bcl-2-related proteins were analyzed. As a control, B cells were also cultured with SCL from osteoarthritis synovium or skin fibroblasts. B cells cultured with medium alone underwent spontaneous apoptosis. However, B cells cultured with RA SCL cells exhibited less apoptosis and greater viability. Although SCL from osteoarthritis synovium and skin fibroblasts also rescued B cells from apoptosis, they were less effective than RA SCL. B cell expression of Bcl-xL was markedly increased by RA SCL in a contact-dependent manner, whereas B cell expression of Bcl-2 was unaffected. Protection of B cells from apoptosis and up-regulation of Bcl-xL by RA SCL were both blocked by mAbs to CD106 (VCAM-1), but not CD54 (ICAM-1). Furthermore, cross-linking of CD49d/CD29 (very late Ag-4) on the surface of B cells rescued them from apoptosis and up-regulated Bcl-xL expression. These results indicate that SCL derived from RA synovial tissue play a role in promoting B cell survival by inducing Bcl-xL expression and blocking B cell apoptosis in a CD49d/CD29-CD106-dependent manner.     

Synovium Fragment-Derived Cells Exhibit Characteristics Similar to Those of Dissociated Multipotent Cells in Synovial Fluid of the Temporomandibular Joint

Multipotent mesenchymal stem cells (MSCs) found in the synovial fluid (SFMSCs) of the tempromandibular joint (TMJ) remain poorly understood. During TMJ arthrocentesis, we discovered that synovial fluid collected from some patients with TMJ disorders contained not only SFMSCs but also synovium fragments (SFs). In this study, we attempted to characterize both the SFMSCs and SF-derived cells (SFCs) in order to further understand the role of MSCs in the synovial fluid of the TMJ. The SFs were membranous and translucent and consisted of several cell layers, indicating that their origin was only from the intima. SFCs were obtained by digestion of the SFs and subsequently expanded in vitro. SFMSCs were enriched by centrifugation of the synovial fluid and expanded in vitro. SFCs and SFMSCs displayed a similar fibroblast-like, spindle-shaped morphology, and we observed that some SFMSCs grew out of small tissue masses in culture. Flow cytometric analysis showed that both groups of cells expressed similar surface markers, including CD90, CD44, CD105, and CD73. However, both were negative for Stro-1, CD146, CD45, CD34, CD11b, CD19, and HLA-DR. Immunofluorescent staining showed that both SFs and SFMSCs expressed vascular cell adhesion molecule 1. Both SFCs and SFMSCs could be induced to differentiate down osteogenic, chondrogenic, adipogenic, and neurogenic lineages in vitro. Together, our results indicate that the intima is the most likely tissue origin of SFMSCs in the TMJ. Moreover, the SFs are composed of only intima and thus offer an improved source of synovium-derived MSCs compared to synovium specimens obtained by surgery, which contain both intima and subintima.     

Human breast milk is a rich source of multipotent mesenchymal stem cells

Putative stem cells have been isolated from various tissue fluids such as synovial fluid, amniotic fluid, menstrual blood, etc. Recently the presence of nestin positive putative mammary stem cells has been reported in human breast milk. However, it is not clear whether they demonstrate multipotent nature. Since human breast milk is a non-invasive source of mammary stem cells, we were interested in examining the nature of these stem cells. In this pursuit, we could succeed in isolating and expanding a mesenchymal stem cell-like population from human breast milk. These cultured cells were examined by immunofluorescent labeling and found positive for mesenchymal stem cell surface markers CD44, CD29, SCA-1 and negative for CD33, CD34, CD45, CD73 confirming their identity as mesenchymal stem cells. Cytoskeletal protein marker analysis revealed that these cells expressed mesenchymal stem cells markers, namely, nestin, vimentin, smooth muscle actin and also manifests presence of E-Cadherin, an epithelial to mesenchymal transition marker in their early passages. Further we tested the multipotent differentiation potential of these cells and found that they can differentiate into adipogenic, chondrogenic and oesteogenic lineage under the influence of specific differentiation cocktails. This means that these mesenchymal stem cells isolated from human breast milk could potentially be “reprogrammed” to form many types of human tissues. The presence of multipotent stem cells in human milk suggests that breast milk could be an alternative source of stem cells for autologous stem cell therapy although the significance of these cells needs to be determined.     

Characterization and expression analysis of mesenchymal stem cells from human bone marrow and adipose tissue.

Human mesenchymal stem cells (MSC), that have been reported to be present in bone marrow, adipose tissues, dermis, muscles and peripheral blood, have the potential to differentiate along different lineages including those forming bone, cartilage, fat, muscle and neuron. This differentiation potential makes MSC excellent candidates for cell-based tissue engineering. In this study, we have examined phenotypes and gene expression profile of the human adipose tissue-derived stromal cells (ATSC) in the undifferentiated states, and compared with that of bone marrow stromal cells (BMSC). ATSC were enzymatically released from adipose tissues from adult human donors and were expanded in monolayer with serial passages at confluence. BMSC were harvested from the metaphysis of adult human femur. Flowcytometric analysis showed that ATSC have a marker expression that is similar to that of BMSC. ATSC expressed CD29, CD44, CD90, CD105 and were absent for HLA-DR and c-kit expression. Under appropriate culture conditions, MSC were induced to differentiate to the osteoblast, adipocyte, and chondrogenic lineages. ATSC were superior to BMSC in respect to maintenance of proliferating ability, and microarray analysis of gene expression revealed differentially expressed genes between ATSC and BMSC. The proliferating ability and differentiation potential of ATSC were variable according to the culture condition. The similarities of the phenotypes and the gene expression profiles between ATSC and BMSC could have broad implications for human tissue engineering.     

Dentinogenic potential of human adult dental pulp cells during the extended primary culture

Despite the frequent use of primary dental pulp cells in dental regenerative research, few systematic studies of stemness for osteogenic and dentinogenic differentiation of human adult pulp cells have been reported. To investigate the stemness of human adult dental pulp cells, pulp tissues were obtained from extracted third molars and used as a source of pulp cells. In FACS analysis and immunophenotyping, the general mesenchymal stem cell markers CD44, CD90, and CD146 were highly expressed in early passages of the pulp cell culture. The stem cell population was dramatically decreased in an expansion culture of human dental pulp cells. When pulp cells were treated with additives such as β-glycerophosphate, ascorbic acid, and dexamethasone, nodule formation was facilitated and mineralization occurred within 2 weeks. Expression of osteogenic markers such as alkaline phosphatase, osteocalcin, and osteonectin was relatively low in undifferentiated cells, but increased significantly under differentiation conditions in whole passages. Dentinogenic markers such as dentin sialophosphoprotein and dentin matrix protein-1 appeared to decrease in their expression with increasing passage number; however, peak levels of expression occurred at around passage 5. These data suggested that stem cells with differentiation potential might exist in the dental pulp primary culture, and that their phenotypes were changed during expansion culture over 8-9 passages. Under these conditions, a dentinogenic population of pulp cells occurred in limited early passages, whereas osteogenic cells occurred throughout the whole passage range.     

Phenotypical properties and ability to multilineage differentiation of adipose tissue stromal cells during subculturing

Morphological and immunophenotypical properties of human adult adipose tissue stromal cells (ATSC) at cultivation passage 0 and 4 as well as their ability to induced in vitro differentiation into adipogenic and osteogenic directions were studied in this work. It was shown that primary cultures of ATSC were characterized by the presence of the lower number of cells expressing mesenchymal markers (CD73, CD105) than the cells of the 4th passage, but contained endothelial progenitor cells expressing CD34 and capable to form capillary-like structures within extracellular matrix. Both cell populations could equally differentiate into adipogenic and osteogenic lineages.     

Phenotypical properties and ability to multilineage differentiation of adipose tissue stromal cells during subculturing

Morphological and immunophenotypical properties of human adult adipose tissue stromal cells (ATSC) at cultivation passage 0 and 4 as well as their ability to induced in vitro differentiation into adipogenic and osteogenic directions were studied in this work. It was shown that primary cultures of ATSC were characterized by the presence of the lower number of cells expressing mesenchymal markers (CD73, CD105) than the cells of the 4th passage, but contained endothelial progenitor cells expressing CD34 and capable to form capillary-like structures within extracellular matrix. Both cell populations could equally differentiate into adipogenic and osteogenic lineages.     

表皮生长因子诱导骨髓间充质干细胞向视网膜神经细胞分化的体外研究

目的:研究表皮生长因子诱导骨髓间充质干细胞向视网膜神经细胞分化的可能性。方法:体外培养骨髓间充质干细胞,利用流式细胞仪分析其细胞表型。采用含EGF的培养液诱导骨髓间充质干细胞向视网膜神经细胞分化,并利用免疫荧光法进行鉴定。结果:从骨髓中分离培养的细胞具有成纤维细胞样形态,贴壁生长,表型相对均一,表面标志为CD90、CD44、CD147阳性;而CD34、CD38、CD45、CD14、HLA-DR阴性。体外诱导后可以得到神经干细胞标志物nestin、神经胶质细胞标志物GFAP和视网膜光感受器细胞标志物Rhodopsin呈阳性表达的细胞。结论:从骨髓中分离培养得到的间充质干细胞具有向视网膜神经细胞分化的潜能。     

人体皮肤成纤维细胞的快速分离及多向分化能力鉴定

目的建立快速分离人皮肤成纤维细胞的方法,并探讨成纤维细胞在成脂、成骨、成软骨和成神经的多向分化潜能。 方法利用组织块培养法分离人体皮肤成纤维细胞,通过形态学观察、流式分析、Vimentin蛋白染色鉴定成纤维细胞;再利用生长曲线、核型分析、线粒体染色分析不同传代细胞的增殖速度,线粒体及染色体形态的改变;最后进行成纤维细胞成脂、成骨、成软骨和成神经的诱导分化实验,鉴定其多向分化潜能。两代细胞增殖速度及线料体相对量的比较采用t检验统计分析。 结果分离的皮肤成纤维细胞呈典型梭状及多角形;高表达细胞表面标记物CD90 （NCF1,NCF2占比分别为99.9%,98.7%）和CD73 （NCF1,NCF2占比分别为98.2%,85.6%）,但极少表达造血干细胞标记物CD34 （NCF1,NCF2占比分别为1.8%,2.6%）;细胞Vimentin蛋白表达呈阳性,阳性率为100%;对细胞生长曲线进行分析,表明分离后不同代次细胞增殖差异无统计学意义（t?= 1.586,P?= 0.1567）;线粒体相对含量统计分析,同一株细胞系第5代（相对荧光强度值：6876±577.8）与第10代（相对荧光强度值：7371±471.9）之间的差异无统计学意义（t?= 0.664,P?= 0.543）;核型分析分别显示传代后保持染色体数目为正常46条且形态无明显异常;经诱导后成纤维细胞可向成脂、成骨、成软骨和类神经分化。 结论利用组织块培养法分离出的人体皮肤成纤维细胞状态稳定,增殖能力强,具有成脂、成骨、成软骨和成神经多向分化诱导潜能,为细胞移植修复骨损伤、软骨损伤和神经损伤性疾病的临床研究提供细胞来源及实验依据。