Biologic properties of mesenchymal stem cells derived from bone marrow and adipose tissue

The biologic characteristics of mesenchymal stem cells (MSCs) isolated from two distinct tissues, bone marrow and adipose tissue were evaluated in these studies. MSCs derived from human and non-human primate (rhesus monkey) tissue sources were compared. The data indicate that MSCs isolated from rhesus bone marrow (rBMSCs) and human adipose tissue (hASCs) had more similar biologic properties than MSCs of rhesus adipose tissue (rASCs) and human bone marrow MSCs (hBMSCs). Analyses of in vitro growth kinetics revealed shorter doubling time for rBMSCs and hASCs. rBMSCs and hASCs underwent significantly more population doublings than the other MSCs. MSCs from all sources showed a marked decrease in telomerase activity over extended culture; however, they maintained their mean telomere length. All of the MSCs expressed embryonic stem cell markers, Oct-4, Rex-1, and Sox-2 for at least 10 passages. Early populations of MSCs types showed similar multilineage differentiation capability. However, only the rBMSCs and hASCs retain greater differentiation efficiency at higher passages. Overall in vitro characterization of MSCs from these two species and tissue sources revealed a high level of common biologic properties. However, the results demonstrate clear biologic distinctions, as well.     

大鼠脂肪间充质干细胞诱导为类肝细胞及其细胞片的制备

成体多能干细胞,如来自骨髓和脂肪组织的间充质干细胞等具有多向分化的潜能。虽然自体干细胞移植已经发展成为器官移植的有效代替疗法之一,但是由于移植位点细胞的流失和分化条件的限制等问题使得这种疗法的效率大大降低。本研究目的是将由脂肪干细胞分化而来的类肝细胞制备成具有稳定细胞性状的可移植的肝细胞片。首先在体外分离扩增脂肪干细胞,并通过控制严格地分化条件获得类肝细胞。然后将此细胞接种到聚N-异丙基丙烯酰胺(PNIPAAm)结合的细胞培养皿表面,通过调节培养温度到20oC,使细胞成片脱离培养皿形成细胞片。对细胞片进行了常规HE染色和免疫组化观察,结果显示:这类细胞片中平均含有2～3层细胞,并且保持了细胞外基质的完整。同传统的胰酶消化收集移植用细胞相比,细胞片方法极大地减少了对移植用细胞的细胞膜和细胞外基质的损伤,这将大大促进细胞片和原位组织的相互作用,增加细胞利用效率,从而有望提高治疗效果。     

Isolation of two human fibroblastic cell populations with multiple but distinct potential of mesenchymal differentiation by ceiling culture of mature fat cells from subcutaneous adipose tissue

Adipose tissue is a source of adult multipotent stem cells that can differentiate along mesenchymal lineage. When mature fat cells obtained from human subcutaneous adipose tissue were maintained with attachment to the ceiling surface of culture flasks filled with medium, two fibroblastic cell populations appeared at the ceiling and the bottom surface. Both populations were positive to CD13, CD90, and CD105, moderately positive to CD9, CD166, and CD54, negative to CD31. CD34, CD66b, CD106, and CD117, exhibited potential of unlimited proliferation, and differentiated along mesenchymal lineage to produce adipocytes, osteoblasts, and chondrocytes. The population that appeared at the ceiling surface showed higher potential of adipogenic differentiation. These observations showed that the cells tightly attached to mature fat cells can generate two fibroblastic cell populations with multiple but distinct potential of differentiation. Since enough number of both populations for clinical transplantation can be easily obtained by maintaining fat cells from a small amount of subcutaneous adipose tissue, this method has an advantage in preparing autologous cells for patients needing repair of damaged tissues by reconstructive therapy.     

Cell culture density affects the proliferation activity of human adipose tissue stem cells

In this study, we investigated the effect of cell density on the proliferation activity of human mesenchymal stem cells (MSCs) derived from adipose tissue (AT‐MSCs) over time in culture. Passage #4 (P4) and #12 (P12) AT‐MSCs from two donors were plated at a density of 200 (culture condition 1, CC1) or 5000 (culture condition 2, CC2) cells cm^?2. After 7 days of incubation, P4 and P12 AT‐MSCs cultured in CC1 were thin and spindle‐shaped, whereas those cultured in CC2 had extensive cell‐to‐cell contacts and an expanded cell volume. In addition, P4 and P12 AT‐MSCs in CC1 divided more than three times, while those in CC2 divided less than once on average. Flow cytometric analysis using 5(6)‐carboxyfluorescein diacetate N‐succinimidyl ester dye showed that the fluorescence intensity of AT‐MSCs was lower in CC1 than in CC2. Furthermore, expression of proliferation‐associated genes, such as CDC45L, CDC20A and KIF20A, in P4 AT‐MSCs was higher in CC1 than in CC2, and this difference was also observed in P12 AT‐MSCs. These data demonstrated that cell culture density affects the proliferation activity of MSCs, suggesting that it is feasible to design a strategy to prepare suitable MSCs using specific culture conditions. Copyright © 2016 John Wiley & Sons, Ltd.     

Osteogenic differentiation and osteochondral tissue engineering using human adipose‐derived stem cells

Osteogenesis and the production of composite osteochondral tissues were investigated using human adult adipose‐derived stem cells and polyglycolic acid (PGA) mesh scaffolds under dynamic culture conditions. For osteogenesis, cells were expanded with or without osteoinduction factors and cultured in control or osteogenic medium for 2 weeks. Osteogenic medium enhanced osteopontin and osteocalcin gene expression when applied after but not during cell expansion. Osteogenesis was induced and mineralized deposits were present in tissues produced using PGA culture in osteogenic medium. For development of osteochondral constructs, scaffolds seeded with stem cells were precultured in either chondrogenic or osteogenic medium, sutured together, and cultured in dual‐chamber stirred bioreactors containing chondrogenic and osteogenic media in separate compartments. After 2 weeks, total collagen synthesis was 2.1‐fold greater in the chondroinduced sections of the composite tissues compared with the osteoinduced sections; differentiation markers for cartilage and bone were produced in both sections of the constructs. The results from the dual‐chamber bioreactor highlight the challenges associated with achieving simultaneous chondrogenic and osteogenic differentiation in tissue engineering applications using a single stem‐cell source. © 2012 American Institute of Chemical Engineers Biotechnol. Prog., 2013     

Cholinergic neuronal differentiation of bone marrow mesenchymal stem cells in rhesus monkeys

The purpose of the present study was to determine the best cholinergic neuronal differentiation method of rhesus monkey bone marrow mesenchymal stem cells(BMSCs).Four methods were used to induce differentiation,and the groups were assigned accordingly:basal inducing group(culture media,bFGF,and forskolin);SHH inducing group(SHH,inducing group);RA inducing group(RA,basal inducing group);and SHH+RA inducing group(SHH,RA,and basal inducing group).All groups displayed neuronal morphology and increased expressio...     

High-resolution analysis of genetic stability of human adipose tissue stem cells cultured to senescence

The potential use of human mesenchymal stem cells for therapeutic applications implies large scale in vitro culture, increasing the probability of genetic instability and transformation. We examine here the incidence of unbalanced and balanced chromosome rearrangements in polyclonal and single cell-derived cultures of human adipose stem cells to senescence. G-banding karyotyping of the polyclonal cultures shows a normal karyotype. In addition, high-resolution microarray-based comparative genomic hybridization analyses relative to uncultured adipose stem cells from the same donors reveal overall genomic stability in long-term (approximately 6 months) polyclonal and clonal culture. One adipose stem cell clone displayed minor deletions in gene-rich telomeric and sub-telomeric regions on three chromosomes in early passage. This however, was detected only in a sub-population of cells that was subsequently spontaneously eliminated from the culture. Apparent pericentromeric instabilities are also occasionally detected in specific chromosomes. Our results indicate that clonal chromosomal aberrations may arise transiently in early passage adipose stem cells (ASC) cultures. Nonetheless, incidence of these aberrations seems to be negligible in the majority of long-term ASC cultures, at least under the culture conditions used here.     

Salidroside induces rat mesenchymal stem cells to differentiate into dopaminergic neurons

Parkinson's disease (PD) is a neurodegenerative disorder characterised by the loss of substantia nigra dopaminergic neurons that leads to a reduction in striatal dopamine (DA) levels. Replacing lost cells by transplanting dopaminergic neurons has potential value to repair the damaged brain. Salidroside (SD), a phenylpropanoid glycoside isolated from plant Rhodiola rosea, is neuroprotective. We examined whether salidroside can induce mesenchymal stem cells (MSCs) to differentiate into neuron‐like cells, and convert MSCs into dopamine neurons that can be applied in clinical use. Salidroside induced rMSCs to adopt a neuronal morphology, upregulated the expression of neuronal marker molecules, such as gamma neuronal enolase 2 (Eno2/NSE), microtubule‐associated protein 2 (Map2), and beta 3 class III tubulin (Tubb3/β‐tubulin III). It also increased expression of brain‐derived neurotrophic factor (BDNF), neurotrophin‐3 (NT‐3) and nerve growth factor (NGF) mRNAs, and promoted the secretion of these growth factors. The expression of dopamine neurons markers, such as dopamine‐beta‐hydroxy (DBH), dopa decarboxylase (DDC) and tyrosine hydroxylase (TH), was significantly upregulated after treatment with salidroside for 1–12 days. DA steadily increased after treatment with salidroside for 1–6 days. Thus salidroside can induce rMSCs to differentiate into dopaminergic neurons.     

Functional studies of mesenchymal stem cells derived from adult human adipose tissue

Recent evidence suggests that cells with the properties of human mesenchymal stem cells (hMSCs) can be derived from adult peripheral tissues, including adipose tissue, muscle and dermis. We isolated hMSCs from the stromal-vascular portion of subcutaneous adipose tissue from seven adult subjects. These cells could be readily differentiated into cells of the chondrocyte, osteocyte and adipocyte lineage demonstrating their multipotency. We studied the functional properties of hMSCs-derived adipocytes and compared them with adipocytes differentiated from hMSCs obtained from bone marrow (BM-hMSC). The two cell types displayed similar lipolytic capacity upon stimulation with catecholamines, including a pronounced antilipolytic effect mediated through alpha2A-adrenoceptors, a typical trait in human but not rodent fat cells. Furthermore, both cell types secreted the fat cell-specific factors leptin and adiponectin in comparable amounts per time unit. The fat tissue-derived hMSCs retained their differentiation capacity up to at least fifteen passages. We conclude that hMSCs derived from adult human adipose tissue can be differentiated into fully functional adipocytes with a similar, if not identical, phenotype as that observed in cells derived from BM-hMSCs. Human adipose-tissue-derived MSCs could therefore constitute an efficient and easily obtainable renewable cellular source for studies of adipocyte biology.     

Transgene expression and differentiation of baculovirus-transduced human mesenchymal stem cells

BACKGROUND: Mesenchymal stem cells (MSCs) have drawn considerable attention as vehicles for cell- or gene-based therapies, yet various problems still exist for current gene delivery vectors. On the other hand, baculovirus has emerged as a novel gene therapy vector, but its transduction of stem cells has not been reported. METHODS: A recombinant baculovirus expressing the enhanced green fluorescent protein (EGFP) was constructed to transduce human MSCs derived from umbilical cord blood (uMSCs) or bone marrow (bMSCs). RESULTS: In this study, we demonstrated for the first time that human uMSCs or bMSCs could be transduced by baculovirus with high efficiencies (up to approximately 72.8% and 41.1%, respectively) and significantly elevated transgene (enhanced green fluorescent protein, EGFP) expression upon incubation with unconcentrated virus and phosphate-buffered saline for 4 h at 25 degrees C. The transduction efficiency into bMSCs could be further increased to approximately 72.2% by lowering the cell density. The improved transgene expression was partly attributed to the enhanced virus uptake upon transduction, as determined by quantitative real-time polymerase chain reaction (Q-PCR). MSC growth was not obstructed by baculovirus transduction itself, but was somewhat hampered by EGFP expression. Nonetheless, the baculovirus-transduced cells remained capable of differentiating into adipogenic lineage. The adipogenic progenitors appeared more permissive to baculovirus transduction than the undifferentiated bMSCs, thus allowing for the maintenance and enhancement of transgene expression by repeated transduction after subculture. CONCLUSIONS: These findings implicate the potential applications of baculovirus as an alternative vector to genetically modify MSCs for ex vivo gene therapy.     

Calcium: A novel and efficient inducer of differentiation of adipose‐derived stem cells into neuron‐like cells

This study comparatively investigated the effectiveness of calcium and other well‐known inducers such as isobutylmethylxanthine (IBMX) and insulin in differentiating human adipose‐derived stem cells (ADSCs) into neuronal‐like cells. ADSCs were immunophenotyped and differentiated into neuron‐like cells with different combinations of calcium, IBMX, and insulin. Calcium mobilization across the membrane was determined. Differentiated cells were characterized by cell cycle profiling, staining of Nissl bodies, detecting the gene expression level of markers such as neuronal nuclear antigen (NeuN), microtubule associated protein 2 (MAP2), neuron‐specific enolase (NSE), doublecortin, synapsin I, glial fibrillary acidic protein (GFAP), and myelin basic protein (MBP) by quantitative real‐time polymerase chain reaction (quantitative real‐time polymerase chain reaction (qRT‐PCR) and protein level by the immunofluorescence technique. Treatment with Ca + IBMX + Ins induced neuronal appearance and projection of neurite‐like processes in the cells, accompanied with inhibition of proliferation and halt in the cell cycle. A significantly higher expression of MBP, GFAP, NeuN, NSE, synapsin 1, doublecortin, and MAP2 was detected in differentiated cells, confirming the advantages of Ca + IBMX + Ins to the other combinations of inducers. Here, we showed an efficient protocol for neuronal differentiation of ADSCs, and calcium fostered differentiation by augmenting the number of neuron‐like cells and instantaneous increase in the expression of neuronal markers.     

Adipogenic differentiation of adipose tissue derived adult stem cells in nude mouse

We evaluated the use of a combination of adipose tissue derived adult stem cells (ADSCs) obtained from liposuction and injectable poly(lactic-co-glycolic acid) (PLGA) spheres for adipose tissue engineering. Adipogenesis was examined in nude mice injected subcutaneously with ADSCs (group I), PLGA spheres (group II), or ADSCs attached PLGA spheres (group III) cultured in adipogenic medium for 7 days. After 4 and 8 weeks, newly formed adipose tissue was observed in groups II and III but not in group I. Oil red O staining of newly formed tissue showed that there was substantially more tissue regeneration and adipogenic differentiation in group III than in group II. RT-PCR confirmed that, after 8 weeks, the PLGA-attached ADSCs had fully differentiated into adipocytes. This study provides significant evidence that ADSCs and PLGA spheres can be used in a clinical setting to generate adipose tissue as a noninvasive soft tissue filler.