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.     

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。     

Differentiation of mesenchymal stem cells derived from human bone marrow and subcutaneous adipose tissue into pancreatic islet-like clusters in vitro

Although stem cells are present in various adult tissues and body fluids, bone marrow has been the most popular source of stem cells for treatment of a wide range of diseases. Recent results for stem cells from adipose tissue have put it in a position to compete for being the leading therapeutic source. The major advantage of these stem cells over their counterparts is their amazing proliferative and differentiation potency. However, their pancreatic lineage transdifferentiation competence was not compared to that for bone marrow-derived stem cells. This study aims to identify an efficient source for transdifferentiation into pancreatic islet-like clusters, which would increase potential application in curative diabetic therapy. The results reveal that mesenchymal stem cells (MSC) derived from bone marrow and subcutaneous adipose tissue can differentiate into pancreatic islet-like clusters, as evidenced by their islet-like morphology, positive dithizone staining and expression of genes such as Nestin, PDX1, Isl 1, Ngn 3, Pax 4 and Insulin. The pancreatic lineage differentiation was further corroborated by positive results in the glucose challenge assay. However, the results indicate that bone marrow-derived MSCs are superior to those from subcutaneous adipose tissue in terms of differentiation into pancreatic islet-like clusters. In conclusion, bone marrow-derived MSC might serve as a better alternative in the treatment of diabetes mellitus than those from adipose tissue.     

Characteristics of human mesenchymal stem cells isolated from bone marrow and adipose tissue

Populations of human mesenchymal stem cells were derived from bone marrow and adipose tissue. Here analysis of six individuals is represented. Cells were isolated, expanded and evaluated by the expression of surface antigens using flow cytometry. These cells displayed similar characteristics for many markers. Cells isolated from bone marrow and adipose tissue were found to be homogeneously positive for CD13, CD44, CD90, CD105, and negative for CD45, CD34, CD31 and CD117. Besides, differences in surface antigene CD10 expression between narrow and adipose tissue-derived cells were detected. All these findings indicate that both bone marrow and adipose tissue are important sources of mesenchymal stem cells, which could be used in cell therapy protocols.     

Osteogenic differentiation of multipotent mesenchymal stromal cells isolated from human bone marrow and subcutaneous adipose tissue

Cellular populations with phenotypes similar to multipotent mesenchymal stromal cells were isolated from two different sources, including human bone marrow (BM) and subcutaneous adipose tissue (SAT). Comparative analysis of the efficiency of differentiation in the direction of osteogenesis has revealed morphological changes confirmed by staining with Alizarin red and von Kossa in bone marrow cells at the 14th day and in adipose tissue cells at the 28th day of cultivation in the medium with inductors. Analysis of expression of the osteopontin, osteocalcin, and bone sialoprotein genes in RT-PCR reactions has detected essential differences in the potential of these cells to differentiate into bone tissue cells. Cells isolated from BM of both the control and experimental groups were positive for octeopontin (OP) on the 14th day. Unlike these cells, in cells isolated from SAT in medium without an inductor, no product of OP gene expression was identified. In the cells subjected to differentiation, OP appeared at day 14. In the BM cells, octeocalcin (OC) was found at the 14th day, while the bone sialoprotein (BS) was found at the 21st day of cultivation in induction medium. In cells isolated from SAT, OC, and BS were not detected, even at the 28th day after the beginning of induction.     

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.     

Decrease of apoptosis markers during adipogenic differentiation of mesenchymal stem cells from human adipose tissue

Although the proliferation and differentiation of mesenchymal stem cells (MSCs) from adipose tissue (AT) have been widely studied, relatively little information is available on the underlying mechanism of apoptosis during the adipogenic differentiation. Thus, the aim of this study was to analyze how the expression of some apoptotic markers is affected by in vitro expansion during adipogenic differentiation of AT-MSCs. The cultures incubated or not with adipogenic medium were investigated by Western blot at 7, 14, 21, and 28 days for the production of p53, AKT, pAKT, Bax, PDCD4 and PTEN. MSCs were recognized for their immunoreactivity to MSC-specific cell types markers by immunocytochemical procedure. The effectiveness of adipogenic differentiation was assessed by staining with Sudan III and examination of adipogenic markers expression, such as PPAR-γ and FABP, at different time points by Western blot. The adipogenic differentiation medium led to the appearance, after 7 days, of larger rounded cells presenting numerous vacuoles containing lipids in which it was evident a red–orange staining, that increased in size in a time-dependent manner, parallel to an increase of the levels of expression of PPAR-γ and FABP. More than 50 % of human MSCs were fully differentiated into adipocytes within the four-week induction period. The results showed that during adipogenic differentiation of AT-MSCs the PI3K/AKT signaling pathway is activated and that p53, PTEN, PDCD4, and Bax proteins are down-regulated in time-dependent manner. Our data provide new information on the behavior of some apoptotic markers during adipogenic differentiation of AT-MSCs to apply for tissues repair and regeneration.     

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。     

A comparison between osteogenic differentiation of human unrestricted somatic stem cells and mesenchymal stem cells from bone marrow and adipose tissue

To evaluate the potential of three stem cells for cell therapy and tissue engineering applications, the biological behavior and osteogenic capacity of the newly introduced cord-blood-derived, unrestricted somatic stem cells (USSC) were compared with those of mesenchymal stem cells isolated from bone marrow (BM-MSC) and adipose tissue (AT-MSC). There was no significant difference between the rates of proliferation of the three stem cells. During osteogenic differentiation, alkaline phosphatase (ALP) activity peaked on day 7 in USSC compared to BM-MSC which showed the maximum value of ALP activity on day 14. However, BM-MSC had the highest ALP activity and mineralization during osteogenic induction. In addition, AT-MSC showed the lowest capacity for mineralization during differentiation and had the lowest ALP activity on days 7 and 14. Although AT-MSC expressed higher levels of collagen type I, osteonectin and BMP-2 in undifferentiated state, but these genes were expressed higher in BM-MSC during differentiation. BM-MSC also expressed higher levels of ALP, osteocalcin and Runx2 during induction. Taking together, BM-MSC showed the highest capacity for osteogenic differentiation and hold promising potential for bone tissue engineering and cell therapy applications.     

Stromal stem cells from adipose tissue and bone marrow of age‐matched female donors display distinct immunophenotypic profiles

Adipose tissue is composed of lipid‐filled mature adipocytes and a heterogeneous stromal vascular fraction (SVF) population of cells. Similarly, the bone marrow (BM) is composed of multiple cell types including adipocytes, hematopoietic, osteoprogenitor, and stromal cells necessary to support hematopoiesis. Both adipose and BM contain a population of mesenchymal stromal/stem cells with the potential to differentiate into multiple lineages, including adipogenic, chondrogenic, and osteogenic cells, depending on the culture conditions. In this study we have shown that human adipose‐derived stem cells (ASCs) and bone marrow mesenchymal stem cells (BMSCs) populations display a common expression profile for many surface antigens, including CD29, CD49c, CD147, CD166, and HLA‐abc. Nevertheless, significant differences were noted in the expression of CD34 and its related protein, PODXL, CD36, CD 49f, CD106, and CD146. Furthermore, ASCs displayed more pronounced adipogenic differentiation capability relative to BMSC based on Oil Red staining (7‐fold vs. 2.85‐fold induction). In contrast, no difference between the stem cell types was detected for osteogenic differentiation based on Alizarin Red staining. Analysis by RT‐PCR demonstrated that both the ASC and BMSC differentiated adipocytes and osteoblast displayed a significant upregulation of lineage‐specific mRNAs relative to the undifferentiated cell populations; no significant differences in fold mRNA induction was noted between ASCs and BMSCs. In conclusion, these results demonstrate human ASCs and BMSCs display distinct immunophenotypes based on surface positivity and expression intensity as well as differences in adipogenic differentiation. The findings support the use of both human ASCs and BMSCs for clinical regenerative medicine. J. Cell. Physiol. 226: 843–851, 2011. © 2010 Wiley‐Liss, Inc.     

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.     

Bone marrow- and subcutaneous adipose tissue-derived mesenchymal stem cells: Differences and similarities

Bone marrow (BM) and subcutaneous adipose tissue (Ad) are both considered being prospective sources of MSC for therapeutic applications. However, functional properties and therapeutic efficacy of MSC derived from different tissues of the same patient are still poorly investigated. In our study, BM-MSC and F-MSC cultures from 43 adult donors were evaluated in successive passages for immunophenotype, secretion of VEGF, SDF1, MCP1, IL6 and TGFβ1, frequency of colony-forming units (CFU-F), frequency of adipo- and osteo-progenitors (CFU-Ad, CFU-Ost), and for onset of in vitro replicative senescence. We have demonstrated that at early passages (P2-P4 or up to 14-15 in vitro population doublings) BM- and Ad- derived MSC cultures are comparable in such important characteristics as proliferation rate (population doubling time: 3,4±0,2% in BM-MSC, 3±0,3 % in F-MSC), clonogenity (CFU-F frequency: 32±5% in BM-MSC, 31±5% in F-MSC), differentiation potential (CFU-Ad frequency: 10,4±2% in BM-MSC, 13±3% in F-MSC; CFU-Ost frequency: 18,5±5,5% in BM-MSC, 18±5% in F-MSC), but differ significantly in abundance of CD146+ fraction within the sample (25±5% in BM-MSC, 7±3 % in F-MSC) and in a level of VEGF, SDF-1, MCP1 and TGFβ1 secretion. We have also demonstrated that BM-MSC enter senescence after P3-4 while most of F-MSC did not show senescence features up to P6-8. Together, these data demonstrate that specific properties of MSC from different sources should be always taken into account, when developing and optimizing the specific protocols for MSC expansion and evaluation for each particular clinical application.     

Multipotent mesenchymal stem cells from adult human eye conjunctiva stromal cells

Abstract Identification of mesenchymal stem cells (MSCs) derived from alternative sources has provided an exciting prospect for intensive investigation. This work focused on characterizing a new source of MSCs from stromal cells from human eye conjunctiva. In this study, after conjunctiva biopsies and culture of stromal segment of this tissue, fibroblast-like (SH2⁺, SH3⁺, CD29⁺, CD44⁺, CD166⁺, CD13⁺) human stromal cells, which can be differentiated toward the osteogenic, adipogenic, chondrogenic, and neurogenic lineages, were obtained. These cells expressed Oct-4, Nanog, Rex-1 genes, and some lineage-specific markers like cardiac actin and Keratin. Taken together, the results indicate that conjunctiva stromal-derived cells are a new source of multipotent MSCs and despite originating from an adult source, they express undifferentiated stem cell markers.     

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.     

Functional expression of adrenoreceptors in mesenchymal stromal cells derived from the human adipose tissue

Cultured mesenchymal stromal cells (MSCs) from different sources represent a heterogeneous population of proliferating non-differentiated cells that contains multipotent stem cells capable of originating a variety of mesenchymal cell lineages. Despite tremendous progress in MSC biology spurred by their therapeutic potential, current knowledge on receptor and signaling systems of MSCs is mediocre. Here we isolated MSCs from the human adipose tissue and assayed their responsivity to GPCR agonists with Ca^2 + imaging. As a whole, a MSC population exhibited functional heterogeneity. Although a variety of first messengers was capable of stimulating Ca²⁺ signaling in MSCs, only a relatively small group of cells was specifically responsive to the particular GPCR agonist, including noradrenaline. RT-PCR and immunocytochemistry revealed expression of α1B-, α2A-, and β2-adrenoreceptors in MSCs. Their sensitivity to subtype-specific adrenergic agonists/antagonists and certain inhibitors of Ca²⁺ signaling indicated that largely the α2A-isoform coupled to PLC endowed MSCs with sensitivity to noradrenaline. The all-or-nothing dose-dependence was characteristic of responsivity of robust adrenergic MSCs. Noradrenaline never elicited small or intermediate responses but initiated large and quite similar Ca²⁺ transients at all concentrations above the threshold. The inhibitory analysis and Ca²⁺ uncaging implicated Ca²⁺-induced Ca²⁺ release (CICR) in shaping Ca²⁺ signals elicited by noradrenaline. Evidence favored IP₃ receptors as predominantly responsible for CICR. Based on the overall findings, we inferred that adrenergic transduction in MSCs includes two fundamentally different stages: noradrenaline initially triggers a local and relatively small Ca²⁺ signal, which next stimulates CICR, thereby being converted into a global Ca²⁺ signal.