猪脂肪间充质干细胞的分离培养及其成脂分化

脂肪间充质干细胞(Adipose mesenchymal stemcell,AMSCs)是一类来源于脂肪组织并具有多向分化潜能的干细胞。近年来的研究证明,脂肪组织具有取材方便和干细胞含量高的优势,有望在研究与应用领域成为骨髓干细胞的替代物。猪是一种比啮齿类更接近人类的模式动物,具有较强的脂肪沉积能力。本研究探讨了猪脂肪间充质干细胞的体外分离纯化、培养扩增和向脂肪细胞诱导分化的条件。采用Ⅰ型胶原酶消化分离脂肪微管基质成分,传代培养扩增,流式细胞仪检测细胞表面标记。取第3-7代AMSCs,采用不同方法诱导AMSCs向脂肪细胞分化,光学显微镜下可观察到诱导后的细胞内有高折光性的小脂滴出现,油红O染色成阳性,不同诱导方法诱导率不同。被诱导细胞用RT-PCR可检测到脂肪细胞分化标志基因LPL和PPARγ的表达。结果表明可以从脂肪组织中分离培养出AMSCs,经传代后可提高其纯度。CD44、CD105表达呈阳性,CD14、CD34、S-100、HLA-DR呈阴性,在合适的诱导条件下,可向脂肪细胞分化。     

小型猪ASCs生物学性状研究及其骨组织工程应用探讨

目的:观察小型猪脂肪来源干细胞(adipose derived stem/stromal cells,ASCs)的形态学特点,研究其多向分化潜能和生物学特性,探讨其在骨组织工程方面的应用。方法:切取雄性小型猪背部皮下脂肪,体外分离培养并鉴定ASCs,观察其生长、增殖特性和组织学形态;并诱导其向脂肪细胞和骨细胞多向分化,分别采用油红O染色和茜素红染色鉴定,细胞表面分子通过流式细胞术鉴定。结果:贴壁的ASCs为长梭形,生长增殖快,性状稳定,流式细胞术检测显示CD29、CD90阳性表达,CD14、CD31、CD34阴性表达。通过相应的诱导培养液诱导,ASCs可向脂肪细胞和骨细胞分化并表现出相应的生物学特征。结论:小型猪背部皮下脂肪取材方便,可获得大量脂肪用以分离ASCs,ASCs增殖分化能力较强,在条件培养基诱导下可成骨分化,可作为种子细胞应用于骨组织工程。     

胰腺导管单克隆上皮样干细胞的多分化潜能

体外诱导源于成年大鼠的胰腺导管单克隆上皮样干细胞分化形成胰岛、神经、脂肪及成骨细胞,探讨干细胞的多分化潜能。扩增培养源于成年大鼠的胰腺导管单克隆上皮样干细胞,采用不同的诱导液体外诱导其向胰岛、神经、脂肪及成骨细胞分化,并通过DTZ染色、糖刺激试验、免疫荧光反应、油红O染色、茜素红染色或Vonkossa染色的方法对分化细胞进行检测。结果显示,体外诱导培养干细胞分化形成类胰岛,DTZ染色阳性,糖刺激分泌胰岛素、C-肽;分化形成类神经细胞,表达神经元特异性烯醇化酶;分化形成类脂肪细胞,油红O染色阳性;分化形成类成骨细胞,其分泌物呈岛状矿化结节,茜素红和Vonkossa染色阳性。这表明,该源于成年大鼠的胰腺导管上皮样干细胞系具有多分化潜能。     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的:研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法:采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果:纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论:分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

脐血间充质干细胞诱导向神经元样细胞分化的实验研究

目的：研究脐血间充质干细胞生物学特性及向神经元样细胞分化的潜能。方法：采用密度梯度离心结合贴壁培养法自脐血中分离间充质干细胞,观察细胞生长情况,描绘生长曲线,流式细胞仪检测细胞表面标志物,分别向成骨细胞、脂肪细胞、神经元样细胞进行诱导分化,通过茜素红染色、油红O染色检测脐血间充质干细胞成骨、成脂肪细胞诱导分化能力,而以免疫组织化学检测诱导后细胞表面神经标志物的表达。结果：纯化的脐血间充质干细胞贴壁生长,呈均一梭形,生长曲线呈S型,并以P3代增殖能力最强,细胞表面不表达或弱表达CD34、CD35、CD106,高表达CD29、CD44、CD105。成骨诱导2周后,可检测到钙化基质的形成,成脂肪诱导3周后,可检测到脂滴的形成。向神经元样细胞诱导分化后,可观察到典型的神经元样形态改变,且NSE、NF、GFAP阳性表达。结论：分离纯化的脐血间充质干细胞具有较强的增殖能力与分化潜能,并在体外诱导条件下可以向神经元样细胞定向分化。     

大鼠脂肪基质细胞成脂分化及慢病毒感染的实验研究

目的诱导大鼠脂肪基质细胞成脂分化,观察慢病毒感染效果。方法大鼠脂肪基质细胞培养至第3代后,间接免疫荧光法鉴定细胞表面抗原CD44,并采用MTT法绘制生长曲线;第3代基质细胞成脂诱导分化为脂肪细胞,油红O染色法鉴定,并行慢病毒感染。结果第3代脂肪基质细胞表面抗原CD44表达呈阳性;细胞生长曲线呈"S"形。细胞经成脂诱导分化剂诱导10d后,胞内有大量脂滴形成,脂滴大小不等。油红O染色显示脂滴被染成红色;携带GFP报告基因的慢病毒可感染成熟脂肪细胞,感染率约为80%,且细胞被感染后状态良好。结果 慢病毒可高效感染由大鼠脂肪基质细胞成脂诱导分化成的脂肪细胞,为研究脂肪细胞的基因功能、相关疾病的基因治疗提供了一个有效工具。     

脂肪来源干细胞体外成骨和成脂及成神经的诱导分化研究

目的:探讨脂肪来源干细胞体外成骨和成脂及成神经的诱导分化情况。方法:选取10只SPF级雄性SD大鼠,将其不同部位的脂肪组织取出,分别采用不同方法对其向成骨、成脂及成神经等方向进行诱导分化并对其结果进行鉴定。结果:ADSC表达中,CD29占(99.11±0.13)%,CD44占(95.94±0.71)%,CD45占(0.12±0.09)%。经4周的成骨诱导后,茜素红S染色在细胞团中央发现红色钙化结节存在,碱性磷酸酶染色在细胞的胞质内观察到紫红色颗粒,经7d成脂诱导后,油红"O"染色在细胞质内观察到橙红色脂滴;经过6d的神经干培养基诱导后,通过免疫荧光染色证明诱导的Nestin细胞、神经丝蛋白-200以及GFAP等均出现阳性表达。结论:ADSC具备向脂肪、成骨及神经元等细胞进行多向分化的潜能,具有来源广、易于操作、体外增殖快速等优越性,并且不存在免疫排斥及医学伦理学问题,发展前景广阔。     

培养人皮下脂肪干细胞纵向分化的实验研究

目的:建立人脂肪干细胞(adipose-derived stem cells,ADSCs)分离、培养的方法,观察其生物学特性,探讨其纵向分化的能力.方法:自皮下脂肪组织获得梭形细胞,观察细胞生物学特征,免疫组化鉴定波形蛋白和CD44.以含有胰岛素、地塞米松、1.甲基-3-异丁基-黄嘌呤的无血清混合培养基诱导其向脂肪细胞纵向分化,以细胞形态学变化.油红O染色和测定甘油磷酸脱氢酶活性判定分化是否成功.结果:人皮下脂肪中能够分离培养出生长旺盛的脂肪干细胞,诱导培养7d后细胞由梭形逐渐变圆,胞质内出现脂滴后逐渐增多融合为脂泡,并与甘油磷酸脱氢酶活性变化相吻合.油红O染色显示约(78.6±2.2)%细胞转变为脂肪细胞.结论:人皮下脂肪中分离的脂肪干细胞在体外诱导条件下能纵向分化为脂肪细胞,可能成为修复软组织缺损及整形美容的又一干细胞来源.     

慢病毒载体介导shRNA干扰IL-6Rα基因表达削弱IL-6对猪脂肪细胞分化的影响

为研究白细胞介素-6(IL-6)对猪脂肪细胞分化的影响及其分子机制,构建猪IL 6Rα基因RNA干扰（RNA interference, RNAi）慢病毒载体;用IL-6Rα-RNAi重组慢病毒预处理原代培养的猪前体脂肪细胞或不处理, 然后用100 ng/mL IL-6处理分化第6 d的脂肪细胞48 h．通过测定甘油释放量检测脂肪细胞的脂解率;油红O染色提取法测定脂肪细胞的脂质含量;采用RT-PCR 和Western印迹检测脂肪细胞分化相关基因的mRNA 和蛋白表达．结果显示,IL-6显著抑制猪脂肪细胞分化,并下调PPARγ2、Perilipin A和IRS-1的mRNA及蛋白表达,同时增强ERK1/2磷酸化;IL-6Rα-RNAi预处理前体脂肪细胞则显著逆转IL 6的上述作用．总之,IL-6通过多重机制抑制猪脂肪细胞分化;而且本研究构建的IL-6Rα-RNAi重组慢病毒载体可有效阻断IL-6信号,为进一步研究IL-6的功能奠定了基础．     

兔骨髓间充质干细胞的体外分离培养和生物学特性观察

目的:探讨兔骨髓间充质干细胞体外分离、培养和鉴定方法,观察其生物学特性.方法:采集兔股骨及胫骨骨髓组织,采用密度梯度离心法结合贴壁培养法体外分离、培养和扩增兔骨髓间充质干细胞,倒置相差显微镜观察细胞形态,绘制原代、第1、3、8代细胞生长曲线,流式细胞术检测细胞表面标志物,成骨和成脂肪诱导培养鉴定,观察细胞生物学特性.结果:培养的BMSCs呈纺锤形、长梭形,旋涡状排列、放射性生长,增值活跃.各代细胞生长曲线呈S型,细胞增值活跃.细胞表面标志物CD44分子阳性,CD34和CD45分子阴性.经成骨和成脂肪诱导后细胞碱性磷酸酶染色和油红O染色阳性.结论:成功建立了兔BMSCs体外分离、培养的有效方法,扩增的BMSCs仍保留多向分化潜能,是理想的组织工程种子细胞.     

Adipose tissue-derived mesenchymal stem cell yield and growth characteristics are affected by the tissue-harvesting procedure

BACKGROUND: Adipose tissue contains a stromal vascular fraction that can be easily isolated and provides a rich source of adipose tissue-derived mesenchymal stem cells (ASC). These ASC are a potential source of cells for tissue engineering. We studied whether the yield and growth characteristics of ASC were affected by the type of surgical procedure used for adipose tissue harvesting, i.e. resection, tumescent liposuction and ultrasound-assisted liposuction. METHODS: Frequencies of ASC in the stromal vascular fraction were assessed in limiting dilution assays. The phenotypical marker profile of ASC was determined, using flow cytometry, and growth kinetics were investigated in culture. ASC were cultured under chondrogenic and osteogenic conditions to confirm their differentiation potential. RESULTS: The number of viable cells in the stromal vascular fraction was affected by neither the type of surgical procedure nor the anatomical site of the body from where the adipose tissue was harvested. After all three surgical procedures, cultured ASC did express a CD34+ CD31- CD105+ CD166+ CD45- CD90+ ASC phenotype. However, ultrasound-assisted liposuction resulted in a lower frequency of proliferating ASC, as well as a longer population doubling time of ASC, compared with resection. ASC demonstrated chondrogenic and osteogenic differentiation potential. DISCUSSION: We conclude that yield and growth characteristics of ASC are affected by the type of surgical procedure used for adipose tissue harvesting. Resection and tumescent liposuction seem to be preferable above ultrasound-assisted liposuction for tissue-engineering purposes.     

Isolation, characterization, and mesodermic differentiation of stem cells from adipose tissue of camel (Camelus dromedarius)

Adipose-derived stem cells are an attractive alternative as a source of stem cells that can easily be extracted from adipose tissue. Isolation, characterization, and multi-lineage differentiation of adipose-derived stem cells have been described for human and a number of other species. Here we aimed to isolate and characterize camel adipose-derived stromal cell frequency and growth characteristics and assess their adipogenic, osteogenic, and chondrogenic differentiation potential. Samples were obtained from five adult dromedary camels. Fat from abdominal deposits were obtained from each camel and adipose-derived stem cells were isolated by enzymatic digestion as previously reported elsewhere for adipose tissue. Cultures were kept until confluency and subsequently were subjected to differentiation protocols to evaluate adipogenic, osteogenic, and chondrogenic potential. The morphology of resultant camel adipose-derived stem cells appeared to be spindle-shaped fibroblastic morphology, and these cells retained their biological properties during in vitro expansion with no sign of abnormality in karyotype. Under inductive conditions, primary adipose-derived stem cells maintained their lineage differentiation potential into adipogenic, osteogenic, and chondrogenic lineages during subsequent passages. Our observation showed that like human lipoaspirate, camel adipose tissue also contain multi-potent cells and may represent an important stem cell source both for veterinary cell therapy and preclinical studies as well.     

The growing importance of fat in regenerative medicine

A recent publication by Michael Longaker and colleagues represents a landmark for the use of adipose tissue as a source of cells for tissue regeneration. The authors investigated the ability of adipose tissue-derived cells (ADCs) to regenerate critical size calvarial (superior portion of the skull) defects in mice by using a novel osteoconducive apatite-coated Poly-lactic-co-glycolic acid (PLGA) scaffold for cell delivery. Direct comparison of this osteogenic ability was performed with bone marrow stromal cells and juvenile calvarial-derived osteoblasts.     

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.     

Human mesenchymal adipose stromal cells from mature adipocyte fraction

More effective techniques should be employed for isolation of human mesenchymal stromal cells derived from adipose tissue (ADSC), seeking to make adipose tissue biopsies smaller in volume and thus less invasive. In this study, we compared properties of ADSC isolated by several different methods from the same samples of adipose tissue in order to enhance yields of potential ADSC. The mature adipocyte fraction was investigated using the ceiling culture method, including both ceiling and bottom cell fractions, and the control culture method with standard amount of medium. The results were also compared using the stromal vascular fraction from the same samples. The most efficient was the bottom cell population isolated from the mature adipocyte fraction by ceiling culture method. These cells readily differentiated into osteogenic, adipogenic and chondrogenic lineages and, similar to stromal vascular fraction cells, displayed high proliferation potential. Cultures of mature adipocyte fractions with standard amount of medium were considerably less effective. Mature adipocyte fractions yields large quantities of adipose-derived stem cells that have properties comparable with stromal vascular fraction cells suitable for tissue regeneration, especially when only small biopsies can be taken.     

Impact of bacteria and bacterial components on osteogenic and adipogenic differentiation of adipose-derived mesenchymal stem cells

Adult mesenchymal stem cells (MSC) are present in several tissues, e.g. bone marrow, heart muscle, brain and subcutaneous adipose tissue. In invasive infections MSC get in contact with bacteria and bacterial components. Not much is known about how bacterial pathogens interact with MSC and how contact to bacteria influences MSC viability and differentiation potential. In this study we investigated the impact of three different wound infection relevant bacteria, Escherichia coli, Staphylococcus aureus, and Streptococcus pyogenes, and the cell wall components lipopolysaccharide (LPS; Gram-negative bacteria) and lipoteichoic acid (LTA; Gram-positive bacteria) on viability, proliferation, and osteogenic as well as adipogenic differentiation of human adipose tissue-derived mesenchymal stem cells (adMSC). We show that all three tested species were able to attach to and internalize into adMSC. The heat-inactivated Gram-negative E. coli as well as LPS were able to induce proliferation and osteogenic differentiation but reduce adipogenic differentiation of adMSC. Conspicuously, the heat-inactivated Gram-positive species showed the same effects on proliferation and adipogenic differentiation, while its cell wall component LTA exhibited no significant impact on adMSC. Therefore, our data demonstrate that osteogenic and adipogenic differentiation of adMSC is influenced in an oppositional fashion by bacterial antigens and that MSC-governed regeneration is not necessarily reduced under infectious conditions.     

Chondrogenic potential of adipose tissue-derived stromal cells in vitro and in vivo.

Articular cartilage exhibits little intrinsic repair capacity, and new tissue engineering approaches are being developed to promote cartilage regeneration using cellular therapies. The goal of this study was to examine the chondrogenic potential of adipose tissue-derived stromal cells. Stromal cells were isolated from human subcutaneous adipose tissue obtained by liposuction and were expanded and grown in vitro with or without chondrogenic media in alginate culture. Adipose-derived stromal cells abundantly synthesized cartilage matrix molecules including collagen type II, VI, and chondroitin 4-sulfate. Alginate cell constructs grown in chondrogenic media for 2 weeks in vitro were then implanted subcutaneously in nude mice for 4 and 12 weeks. Immunohistochemical analysis of these samples showed significant production of cartilage matrix molecules. These findings document the ability of adipose tissue-derived stromal cells to produce characteristic cartilage matrix molecules in both in vitro and in vivo models, and suggest the potential of these cells in cartilage tissue engineering.