Comparing the osteogenic potential of canine mesenchymal stem cells derived from adipose tissues, bone marrow, umbilical cord blood, and Wharton's jelly for treating bone defects

Alternative sources of mesenchymal stem cells (MSCs) for replacing bone marrow (BM) have been extensively investigated in the field of bone tissue engineering. The purpose of this study was to compare the osteogenic potential of canine MSCs derived from adipose tissue (AT), BM, umbilical cord blood (UCB), and Wharton''s jelly (WJ) using in vitro culture techniques and in vivo orthotopic implantation assays. After canine MSCs were isolated from various tissues, the proliferation and osteogenic potential along with vascular endothelial growth factor (VEGF) production were measured and compared in vitro. For the in vivo assay, MSCs derived from each type of tissue were mixed with β-tricalcium phosphate and implanted into segmental bone defects in dogs. Among the different types of MSCs, AT-MSCs had a higher proliferation potential and BM-MSCs produced the most VEGF. AT-MSCs and UCB-MSCs showed greater in vitro osteogenic potential compared to the other cells. Radiographic and histological analyses showed that all tested MSCs had similar osteogenic capacities, and the level of new bone formation was much higher with implants containing MSCs than cell-free implants. These results indicate that AT-MSCs, UCB-MSCs, and WJ-MSCs can potentially be used in place of BM-MSCs for clinical bone engineering procedures.     

Isolation and characterization of bone marrow-derived equine mesenchymal stem cells

OBJECTIVE: To isolate and characterize bone marrow-derived equine mesenchymal stem cells (MSCs) for possible future therapeutic applications in horses. SAMPLE POPULATION: Equine MSCs were isolated from bone marrow aspirates obtained from the sternum of 30 donor horses. PROCEDURES: Cells were cultured in medium (alpha-minimum essential medium) with a fetal calf serum content of 20%. Equine MSC features were analyzed to determine selfrenewing and differentiation capacity. For potential therapeutic applications, the migratory potential of equine MSCs was determined. An adenoviral vector was used to determine the transduction rate of equine MSCs. RESULTS: Equine MSCs can be culture-expanded. Equine MSCs undergo cryopreservation in liquid nitrogen without altering morphologic characteristics. Furthermore, equine MSCs maintain their ability to proliferate and differentiate after thawing. Immunocytochemically, the expression of the stem cell marker CD90 can be detected on equine MSCs. The multilineage differentiation potential of equine MSCs was revealed by their ability to undergo adipogenic, osteogenic, and chondrogenic differentiation. CONCLUSIONS AND CLINICAL RELEVANCE: Our data indicate that bone marrow-derived stromal cells of horses can be characterized as MSCs. Equine MSCs have a high transduction rate and migratory potential and adapt to scaffold material in culture. As an autologous cell population, equine MSCs can be regarded as a promising cell population for tissue engineering in lesions of the musculoskeletal system in horses.     

Further insights into the characterization of equine adipose tissue-derived mesenchymal stem cells

Adipose tissue-derived stem cells (ADSCs) represent a promising subpopulation of adult stem cells for tissue engineering applications in veterinary medicine. In this study we focused on the morphological and molecular biological properties of the ADSCs. The expression of stem cell markers Oct4, Nanog and the surface markers CD90 and CD105 were detected using RT-PCR. ADSCs showed a proliferative potential and were capable of adipogenic and osteogenic differentiation. Expression of Alkaline phosphatase (AP), phosphoprotein (SPP1), Runx2 and osteocalcin (OC) mRNA were positive in osteogenic lineages and peroxisome proliferator activated receptor (Pparγ2) mRNA was positive in adipogenic lineages. ADSCs show stem cell and surface marker profiles and differentiation characteristics that are similar to but distinct from other adult stem cells, such as bone marrow-derived mesenchymal stem cells (BM-MSCs). The availability of an easily accessible and reproducible cell source may greatly facilitate the development of stem cell based tissue engineering and therapies for regenerative equine medicine.     

Comparative analysis of in vitro proliferative,migratory and pro-angiogenic potentials of bovine fetal mesenchymal stem cells derived from bone marrow and adipose tissue

Veterinary Research Communications - Mesenchymal stem cells (MSCs) are found in virtually all tissues, where they self-renew and differentiate into multiple cell types. Cumulative data indicate...     

Expansion under hypoxic conditions enhances the chondrogenic potential of equine bone marrow-derived mesenchymal stem cells

Bone marrow-derived mesenchymal stem cells (BM-MSCs) are widely used in regenerative medicine in horses. Most of the molecular characterisations of BM-MSCs have been made at 20% O₂, a higher oxygen level than the one surrounding the cells inside the bone marrow. The present work compares the lifespan and the tri-lineage potential of equine BM-MSCs expanded in normoxia (20% O₂) and hypoxia (5% O₂). No significant differences were found in long-term cultures for osteogenesis and adipogenesis between normoxic and hypoxic expanded BM-MSCs. An up-regulation of the chondrogenesis-related genes (COL2A1, ACAN, LUM, BGL, and COMP) and an increase of the extracellular sulphated glycosaminoglycan content were found in cells that were expanded under hypoxia. These results suggest that the expansion of BM-MSCs in hypoxic conditions enhances chondrogenesis in equine BM-MSCs.     

Optimisation of bone marrow aspiration from the equine sternum for the safe recovery of mesenchymal stem cells

Reasons for performing study: Mesenchymal stem cell (MSC) therapy for orthopaedic disease is being used with increasing frequency; there is a need to define a safe, reliable and effective technique for the recovery of MSCs from the sternum of the horse. Objectives: To describe an optimised safe technique for obtaining bone marrow‐derived MSCs from the sternum of the Thoroughbred horse. Methods: The anatomical relationship of the sternum with the heart and internal anatomy was demonstrated in cadavers. Sternal anatomy was evaluated ultrasonographically and after midline sectioning. Sternebrae were examined histologically after aspiration to determine the effect of needle insertion. The quality of the aspirate was evaluated as the number of colony‐forming units from sequential and separately aspirated 5 ml aliquots and assessed for their multipotency using trilineage differentiation. Results: The optimal safe location for the needle was the 5th sternebra because it had a safe dorsoventral thickness and was cranial to the apex of the heart. This sternebra could be reliably identified ultrasonographically. Aspirates could also be obtained from the 4th and 6th sternebrae, although the former is between the front limbs and the latter closer to the heart. Minimal disruption of the internal bony architecture was seen after needle insertion through the thin outer cortex and the first 5 ml aliquot contained the greatest number of colony‐forming units of mesenchymal stem cells with trilineage capabilities. Conclusions: Accurate placement of a Jamshidi needle into the medullary cavity of the 4th–6th individual sternebrae is facilitated by the use of ultrasonography and enables aspiration of bone marrow reliably with minimal damage to the sternum and risk to the horse. Potential clinical relevance: Sternal marrow aspiration as described is a safe and reliable technique to obtain MSCs for orthopaedic cell‐based therapies.     

猪骨髓间充质干细胞分离培养和诱导分化脂肪细胞

采用全骨髓培养法分离猪骨髓间充质干细胞(Mesenchymal stem cells,MSCs)并传代培养;取第4代纯化的MSCs在成脂诱导培养基中诱导分化;分化的成脂细胞用形态学和油红O染色法进行鉴定;用实时荧光定量PCR(Real-time PCR)检测成脂分化标志基因PPARγ2和LPL mRNA的表达情况。结果显示,分离培养的猪MSCs细胞经连续传代形态上无明显改变;MSCs在成脂分化培养液中诱导分化2d开始有少量脂滴出现,油红O染色成阳性,诱导18d成脂转化率可达59.8%;在诱导分化第5、10、15天时,PPARγ2mRNA相对表达量分别是(5.065±0.159)、(6.268±0.340)、(9.277±0.261),LPL mRNA的相对表达量分别是(10.995±1.473)、(13.130±0.712)、(15.762±0.934)。结果表明,用本诱导条件诱导猪MSCs向脂肪细胞分化,经形态学和油红O染色鉴定,成脂细胞分化率可达60%,且随分化时间的延长,脂肪细胞标志基因表达增加。     

In vitro comparison of feline bone marrow-derived and adipose tissue-derived mesenchymal stem cells

Mesenchymal stem cells (MSC) are increasingly being proposed as a therapeutic option for a variety of different diseases in human and veterinary medicine. At present, MSC are most often collected from bone marrow (BM) or adipose tissue (AT) and enriched and expanded in vitro before being transferred into recipients. However, little is known regarding the culture characteristics of feline BM-derived (BM-MSC) versus AT-derived MSC (AT-MSC). We compared BM-MSC and AT-MSC from healthy cats with respect to in vitro growth and cell surface phenotype. Mesenchymal stem cells isolated from AT proliferated significantly faster than BM-MSC. Phenotypic differences between BM-MSC and AT-MSC were not present in the surface markers assessed. We conclude that BM-MSC and AT-MSC are similar phenotypically but that cultures of AT-MSC are easier to generate because of their higher intrinsic proliferative rate. Thus, AT-MSC may be the preferred MSC for clinical applications where rapid and efficient generation of MSC is important.     

Osteogenic proliferation and differentiation of canine bone marrow and adipose tissue derived mesenchymal stromal cells and the influence of hypoxia

The aim of this study was to compare the osteogenic and proliferative potential of canine mesenchymal stromal cells (cMSCs) derived from bone marrow (BM-cMSCs) and adipose tissue (AT-cMSCs). Proliferation potential was determined under varying oxygen tensions (1%, 5%, and 21% O(2)). Effects of reduced oxygen levels on the osteogenic differentiation of AT-cMSCs were also investigated. AT-cMSCs proliferated at a significantly faster rate than BM-cMSCs, although both cell types showed robust osteogenic differentiation. Culture in 5% and 1% O(2) impaired proliferation in cMSC from both sources and osteogenic differentiation in AT-cMSCs. Our data suggests that AT-cMSCs might be more suitable for use in a clinical situation, where large cell numbers are required for bone repair, due to their rapid proliferation combined with robust osteogenic potential. Our data also suggests that the inhibitory effects of hypoxia on both cell proliferation and differentiation should be considered when using MSCs in a potentially hypoxic environment such as a fracture site.     

猪骨髓间充质干细胞分离培养及生物学特性

采集健康猪股骨骨髓,利用percoll梯度离心法分离单个核细胞,进行体外原代和传代培养,并用不同代数细胞进行了细胞生长能力、膜表面抗原(CD105、CD90、CD45)及诱导分化能力的检测.结果显示分离培养的单个核细胞贴壁生长,形态呈成纤维细胞样及涡旋状克隆团;细胞传代至第17代生长状况仍然良好;用F3代细胞进行膜表面抗原标记显示,CD90和CD105阳性表达率分别为(97.4±1.8)％和(99.6±0.9)％,而CD45阳性表达率仅为(1.8±0.55)％,证实这些细胞具有猪骨髓间充质干细胞(Mesenchymal stem Cells,MSCs)表面抗原;经地塞米松、维生素C和β-磷酸甘油等诱导F3代细胞,21d后出现钙物质沉积细胞群,用茜素红和Von kossa染色呈阳性,证实这些细胞已分化形成成骨细胞;经地塞米松、IBMX、胰岛素及吲哚美辛等诱导F3代细胞,21d后细胞质出现脂滴样结构,用油红O染色呈阳性,证实已分化形成成脂细胞;冷冻-解冻细胞的膜表面抗原及多能分化能力与未冻存细胞的检测结果基本一致.结果证实,从猪骨髓中分离培养及经传代扩增获得的贴壁细胞是纯化的MSCs.     

Neurogenic and cardiomyogenic differentiation of mesenchymal stem cells isolated from minipig bone marrow

The present study investigated the potential of minipig bone marrow-mesenchymal stem cells (BM-MSCs) to differentiate in vitro into neuron- and cardiomyocyte-like cells. Isolated BM-MSCs exhibited a fibroblast-like morphology, expressed CD29, CD44 and CD90, and differentiated into osteocytes, adipocytes and chondrocytes. Upon induction in two different neuronal specific media, most of BM-MSCs acquired the distinctive morphological features and positively stained for nestin, neurofilament-M (NF-M), neuronal nuclei (NeuN), β-tubulin, galactocerebroside (Gal-C) and glial fibrillary acidic protein (GFAP). Expression of nestin, GFAP and NF-M was further demonstrated by RT-PCR and RT-qPCR. Following cardiomyogenic induction, MSCs exhibited a stick-like morphology with extended cytoplasmic processes, and formed cluster-like structures. The expression of cardiac specific markers α-smooth muscle actin, cardiac troponin T, desmin and α-cardiac actin was positive for immunofluorescence staining, and further confirmed by RT-PCR and RT-qPCR. In conclusion, our results showed the in vitro differentiation ability of porcine BM-MSCs into neuron-like and cardiomyocyte-like cells.     

不同代次大鼠骨髓间充质干细胞和脂肪间充质干细胞成骨分化比较

本研究旨在观察不同代次骨髓间充质干细胞(BMSCs)和脂肪间充质干细胞(ADSCs)体外培养的生长特点和体外诱导成骨能力。通过密度梯度离心和贴壁培养法分离培养大鼠骨髓间充质干细胞和脂肪间充质干细胞,用含地塞米松、抗坏血酸、β-甘油磷酸钠的培养液定向诱导传代细胞向成骨细胞分化,并利用茜素红染色、碱性磷酸酶染色及PCR方法检测成骨细胞。结果表明骨髓及脂肪间充质干细胞呈成纤维细胞样生长,增殖能力强,生长迅速。第5、10、15、20代BMSCs及ADSCs经诱导培养后茜素红染色呈阳性并且出现"矿化"、碱性磷酸酶活性强,随着细胞代次的递增,诱导后细胞碱性磷酸酶活性呈递减趋势;诱导后的两类细胞传代后细胞仍能继续分化,并形成正常的"矿化"结节,且碱性磷酸酶染色均弱于初次诱导。结果提示,BMSCs及ADSCs易于分离培养及体外扩增,诱导条件下成骨能力强且成骨细胞传代培养仍具有成骨能力,适合作为再生医学骨组织工程的种子细胞。