Proliferation and differentiation patterns of hematopoietic precursor from umbilical blood in mesenchymal stem cell microenvironment

AIM: To investigate the proliferation and differentiation patterns of hematopoietic precursors from cord blood in mesenchymal stem cell(MSC) microenvironment. METHODS: MSC was used as feeder cells, the mononuclear cells (MNCs) from cord blood were expanded in MSC microenvironment in the presence of stem cell factor(SCF), FMS-like tyrosine kinase 3 ligand(Flt3L), thrombopoietin (TPO) and IL-6. MNC count and colony-forming cell(CFC) culture were performed at week 1, 2, 3 and 4. RESULTS: (1) The number of MNCs increased and reached 108-fold in group MSC+CK(cytokine), but 7.8-fold in group CK at week 4. (2) CFC increased and reached the peak at week 3, the total number of CFC was higher in group MSC+CK than that in group CK, a rapid decline was observed at week 4. (3) The greatest expansion of erythroid CFC and high proliferative potential colony-forming cells(HPP-CFC) occurred at week 1, went down rapidly and dropped to zero at week 3, expansions in group MSC+CK were greater than that in group CK. (4) Myeloid CFC expanded continuously and the greatest expansion occurred at week 3, and declined at week 4. Myeloid CFC expanded greater in group MSC+CK than that in group CK. (5) CFC number per 104 MNCs reached the peak after one week of expansion, then declined rapidly from week 2, and dropped lower than that before expansion by the end of week 4.CONCLUSION: (1) Expansion ability of hematopoietic precursors from cord blood in MSC microenvironment is better than that in culture system without MSC. (2) Even expansion is performed in MSC microenvironment, differentiation could not be prevented. (3) Expansion of erythroid precursors occurrs in the early stages of ex vivo expansion. Expansion of myelomonocytic precursors lasts longer than that of erythroid.     

Isolation and identification of human fetal bone-derived mesenchymal stem cells and their differentiation to hepatocyte like cells

AIM: To separate and identify the mesenchymal stem cells (MSCs) from human fetal bone and to study their differentiation to hepatocyte like cells under the action of chemical induction.METHODS: The MSCs from human fetal bone were isolated and purified according to the different growth characteristic of attaching to the wall of cell culture flask.The cell cycle and surface markers of MSCs were identified using flow cytometry.The MSCs were pre-induced by adding DMSO,β-Me and 5-aza for 24 h,then adding the inductive medium of H-DMEM and rh-HGF to induce their differentiation to hepatocyte like cells (HLCs).HLCs were identified by the typical morphological change and the expression of special protein with the method of immunocytochemistry.RESULTS: The MSCs derived from human fetal bone expressed adhesion molecules CD29+,CD44+,but not antigens of hematopoietic CD34,CD45,and not antigens related to GVHD,such as HLA-DR,CD80 and CD86.Exposure of these cells to above-mentioned inductive agents resulted in obvious morphological change and an increase in expression of AFP and ALB.CONCLUSION: The results suggest the existence of plentiful MSCs in human fetal bone.MSCs derived from human fetal bone can easily differentiate to HLCs,and they have a lower immunogenic nature,which may provide the ideal source for tissue engineering (bioartificial liver) for cellular therapeutics.     

Biological characterics of human fetal cord blood mesenchymal stem cells

AIM: To investigate the biological characterics of human second-trimester fetal cord blood mesenchymal stem cells (MSC) and its application prospects in utero gene transfer/therapy (IUGT). METHODS: Nuclear cells separated from cord blood were cultured in DMEM medium. Surface antigens of the MSC were analyzed by the FACScan flow cytometry. Adipogenic and osteogenic mediums were used to assess the differentiation ability of the cells. Adenovirus vector deliver green fluorescent protein gene (Ad-GFP) was used to transfected the MSC and the expressing of GFP was detected by fluorescent microscope. The MSC were injected into the liver of newborn rat. The immunofluorescence analysis was conducted to determine the presence of double-positive CD105⁺/CD166⁺ cells in different organs of rats. MSC were subcutaneous injected into the human-nonobese diabetes/severe combined immunodeficiency disease (NOD/SCID) mice and carcinogenesises of the MSC in vivo were detected by pathological diagnosis. RESULTS: MSC could be separated from fetal cord blood. These cells were uniformly positive for CD29, CD44, CD59, CD105, CD166 and negative for CD34, CD45, CD80, CD86, HLA-DR. The cells had the abilities to differentiate into adipogenic and osteogenic cells in vitro, expressed the GFP at high levels (56.32%±3.28%). The MSC were located at different organs after injected into the newborn rats and didn't have carcinogenicity in vivo. CONCLUSION: Human second-trimester fetal cord blood MSC is an promising target cells in fetal IUGT.     

Differentiation potential of human placenta derived mesenchymal stem cells into vascular endothelial cells

AIM: To investigate the differentiation potential of human placenta derived mesenchymal stem cells (PDMSCs) into endothelial cells (ECs) in vitro. METHODS: PDMSCs were isolated from human placenta tissues, characterized by flow cytometry and induced to differentiate into endothelial cells with 50 μg/L VEGF and 10 μg/L bFGF. To detect the specific markers of ECs during the process of differentiation, the method of immunocytochemistry was performed. The specific structure and function of endothelial cells were observed by transmission electron microscopy and in vitro angiogenesis assay kit, respectively. RESULTS: CD105 and CD106 were positive in PDMSCs, while CD34,CD45 and CD31 were negative.The ECs differentiated from PDMSCs showed cobblestone-like morphology, and expressed early endothelial marker of Flk-1/KDR and mature endothelial markers of CD31, vWF and CD144/VE-cadherin in a time-dependent manner during the endothelial cell differentiation (0 day, 4 days, 8 days and 12 days). The endothelial specific structure, Weibel-palade body, was observed under transmission electron microscope. The inoculation of ECs on the extra cellular matrix gel formed capillary-like structures. CONCLUSION: Plentiful PDMSCs can be isolated from placenta, and differentiate into the cells with functional characteristics of ECs in vitro, indicating that the placenta tissues will become optimal source of seed cells for vascular engineering and regenerative medicine.     

Effects of β-ME and RA on expression of GFAP in mesenchymal cells derived from mouse fetal liver

AIM: To investigate the effects of β-mercaptoethanol (β-ME) and all-trans rentinal acid (RA) on glial fibrillary acidic protein (GFAP) expression in mesenchymal cells derived from mouse fetal liver in vitro. METHODS: Cells suspension from 14.5-days-old mouse fetal liver were cultured in DMEM/HEPES/F12 supplemented with 20％ FCS and mesenchymal cells were acquired after discarding nonadherent cells. The 5th passage cells were induced by β-ME and RA. The characteristics of treated cells were assayed by immunocytochemistry staining at 5 hours and 5 days after induction. β-actin as an internal control, GFAP gene expression of mesenchyal cells was detected with semi-quantitative RT-PCR. RESULTS: After being inducted by β-ME and RA, 80％ approximately of the cells exhibited typical neural morphology and about 85％ expressed GFAP phenotype. Semi-quantitative RT-PCR showed that mRNA expression of GFAP increased in treated cells versus untreated cells (P<0.01). CONCLUSION: GFAP expression in mesenchymal cells derived from mouse fetal liver in vitro increases after being treated with β-ME and RA.     

Study on the biological characteristics of rat bone marrow mesenchymal stem cells

AIM: To investigate the basic biological characteristics of adult rat bone marrow mesenchymal stem cells(rBMMSCs), and compare to that of human BMMSCs (hBMMSCs). METHODS: rBMMSC and hBMMSCs were separated from bone marrow with the difference of adherence and Ficoll-Paque reagent, and expanded in culture medium in vitro, respectively. The proliferation and growth characteristics of the primary and different passage culture of rBMMSCs and hBMMSCs were analysed. The neural differentiation capacity of rBMMSCs with passages were observed. To detect the surface antigens of rBMMSCs, the labeled cells were analysed on a FACScan flow cytometer. The karyotype of rBMMSCs were detected by blocking cellular fission with colchicines. RESULTS: rBMMSCs and hBMMSCs have a strong self-renewal capacity. Approximately (4-8)×10¹² and (3-4)×10¹² cells were obtained after passage 15 in vitro, respectively. The ability of proliferation, CFU-Fs, and neural differentiation of rBMMSCs and hBMMSCs were decreased gradually with passages, but the ability of proliferation and CFU-Fs of rBMMSCs were higher than that of hBMMSCs at different passage. FACScan result showed rBMMSCs were uniformly positive for CD29 and CD44, and negative for CD11b, CD45, CD61, CD71, CD80, CD86,MHCⅠ and MHCⅡ. rBMMSCs had an normal karyotype, which had an average of 37.0±4.0 to 40.5±2.5 chromosomes. CONCLUSION: Adult rBMMSCs have strong self-renewal and neural differentiation capacity, and have an normal karyotype. So rBMMSCs can be used as the seed cells for tissue engineering.     

Biological characters of mesenchymal stem cells of human umbilical cord blood

AIM：To study the isolation,expansion and purification of mesenchymal stem cells (MSCs) from human umbilical cord blood (UCB),and investigate some biological identities of MSCs.METHODS：(1) MSCs of UCB,adult bone marrow (BM) and fetus BM were isolated by centrifugation with Ficoll,and the different kinds of MSCs were observed everyday.(2) Surface markers of MSCs were identified by flow cytometry.(3) The level of HGFs (TPO,SCF,FLT-3L,IL-6) secreted by different sources of MSCs was checked by ELISA method.RESULTS：(1) No difference in morphology of the colonies between UCB MSCs and BM MSCs was observed.However,the mononuclear cells needed in culture of UCB MSCs was about 3 times more than that in culture of BM MSCs.The times of UCB MSCs colony formation and confluencing were longer than that of BM in primary culture.(2) After passaged,there was no significant difference in the proliferation rates of 3 kinds of MSCs.Only 4 of 15 UCB samples contained a homogeneous population of MSCs.(3) UCB MSCs shared the same markers with BM MSCs.Neither hematopoietic marker nor immunologic recognition antigens were expressed.(4) The level of hematopoietic growth factors (HGFs) secreted by 3 kinds of MSCs was similar.CONCLUSIONS：(1) MSCs were isolated from UCB,but the amount of MSCs in UCB was smaller than that in BM,and just seldom samples of UCB contained homogeneous MSCs.(2) MSCs from UCB and BM shared the same biological characteristics,such as proliferation ability,surface markers,immunophenotypes and HGFs secretion.     

Sca-1+ cells from mouse fetal liver can differentiate into neurons in vitro

AIM: To study whether Sca-1⁺ cells from fetal liver can be induced to differentiate into neuronal cells in vitro. METHODS:Sca-1⁺cells from 14 5-days-old murine fetal liver were isolated with a magnetic cell sorting kit, and were cultured in Dulbecco s modif ied Eagle s medium(DMEM)/F12 supplemented with 10%fetal bovine serum(FBS), and passaged at a rat io of 1 3 when cells reached more than 80%confluence.The 5 passage cells were induced by 10^-3mol/Lβ-mercaptoethanol(β-ME)and 5×10^-7 mol/L all-trans-retinoic acid(RA)for 24 hours, and then incubated in serum-free medium for 5 hours to 5 days.The characteristics of treated cel s were assayed by immunocytochemistry staining analysis at 5 hours, or 5 days.RESULTS: Cells treated with β-ME and RA exhibited neuronal phenotype and expressed neuron-specific protein such as neuron-specific nuclear protein (NeuN), neuronfilament-M, and neuron-specific tubulin-1 (TuJ-1) but not tau, MAP-2, or the astrocyte-specific marker glial fibrillary acidic protein (GFAP).CONCLUSION: Sca-1⁺ cells from fetal liver, of which most are regarded as hematopoietic stem cells, could differentiate into early immature neuronal cells in vitro. These findings suggest that Sca-1⁺ cells from fetal liver may be an alternative source in cell therapy and gene therapy of neural dysfunction.     

The SDF-1/CXCR4 axis repairs hypoxia-ischemia brain damage via-regulating oriented differentiation of mesenchymal stem cells

AIM:To explore the effect of stromal cell-derived factor-1(SDF-1)/CXC chemokine receptor 4(CXCR4)axis on the neural differentiation of rat mesenchymal stem cells(rMSCs) and recovery from hypoxia-ischemia brain damage(HIBD). METHODS:The rMSCs were isolated from the rat bone marrow, and expanded in vitro. The mRNA and protein levels of CXCR4 in rMSCs treated with SDF-1α(10 μg/L) and hypoxia for 0 h, 6 h, 12 h, 24 h, 48 h and 72 h were detected by RT-PCR, Western blotting and flow cytometry. The mRNA and protein levels of SDF-1α in the hippocampus of the rats with hypoxia-ischemia for 1 d, 3 d, 5 d, 7 d, 14 d and 21 d were also detected by the same methods. The protein levels of neuron-specific enolase(NSE) and glial fibrillary acidic protein(GFAP), as well as the positive rate of neural-induced rMSCs pretreated with AMD3100(a CXCR4 antagonist) at dose of 5 mg/L were determined by Western blotting and immunocytochemistry. RESULTS:Compared with the normal controls, both mRNA and protein levels of CXCR4 increased in rMSCs exposed to hypoxia for 6 h and 12 h, and the results were also confirmed by flow cytometry. As expected, the mRNA level of SDF-1α in the hippocampus of HIBD rats was higher than that in normal control rats(P<0.01). Moreover, the mRNA expression of CXCR4 was extremely up-regulated in rMSCs treated with SDF-1α at concentration of 10 μg/L, and the results were also confirmed by Western blotting and flow cytometry analysis(P<0.01). The protein levels and positive cell numbers of NSE and GFAP were extremely decreased in rMSCs pretreated with AMD3100 at concentration of 5 mg/L. CONCLUSION:Compared with normal rats, SDF-1α level in the hippocampus of the rats with hypoxia-ischemia is increased. Hypoxia and micro-dose of SDF-1α induce the expression of CXCR4 in rMSCs, while CXCR4 antagonist reduces the neural differentiation of rMSCs, suggesting that SDF-1/CXCR4 axis may be deeply involved in the neural differentiation of rMSCs during the process of repairing HIBD.     

Supportive effects of human aorta-gonad-mesonephero stromal cells on the directed differentiation of embryonic stem cells into hematopoietic stem cells

AIM: To direct embryonic stem cells (ESCs) into hematopoietic stem cells (HSCs) in vitro by simulating the hematogenic microenvironment in human early embryonic aorta-gonad-mesonephero (AGM) region.METHODS: Murine E14 embronic stem cell line was used for two-step differentiation.In the first step of primary differentiation,E14 ESCs were seeded into semisolid methylcellulose-based medium containing bone morphogenesis protein 4 (BMP4) and vascular endothelial growth factor (VEGF) for embryoid body (EB) formation.On days 3,6,9,12 and 15,single EB cells were analyzed for Flk-1+ cells amount through flow cytometry.In the second step,single cell from EB containing most Flk-1+ cells was further co-cultured with human AGM stromal cells in non-contact system.On co-culture days of 3,6,9 and 12 days,cells were collected for cell count,flow cytometry for Sca-1+c-kit+ cells analysis,and colony forming cell assay.RESULTS: During the EB formation,BMP4+VEGF promoted Flk-1+ cell genesis on day 9 at peak pencentage value of 27.53%±2.84％,which was statistically higher than that in control group as 8.77±1.10 (P<0.05).Collagenase-disassociated single cell from day 9 EB was co-cultured with human AGM stromal cells of hAGMS3 or hAGMS4 for further hematopoietic differentiation.On day 6 Sca-1+c-kit+ cells got to peak value as 7.31%±1.21％ ［(2.57±0.48) folds］ and 7.62%±1.52％ ［(2.35±0.36) folds］ in hAGMS3 and hAGMS4 feeder systems,respectively,both of which were greater than those values of no-stroma groups at the same culture duration (P<0.05).Colonogenic cell assay showed that these Sca-1+c-kit+ cells had ability of forming multiple lineage hematopoietic colonies.CONCLUSION: BMP4 in combination with VEGF promotes Flk-1+ cell genesis during EB formation in vitro.Stromal cells from early human embryonic AGM region further enhance the directed differentiation of these primitive cells into HSCs.This two-step induction differentiation model can be used for molecular mechanism study of ESCs hematopoietic differentiation.     

The preliminary study on differentiation of mesenchymal stem cells into corneal epithelium like cells

AIM: To observe the differentiation and development of human mesenchymal stem cells (MSCs) transplanted onto corneal stroma of rabbits and investigate the feasibility of MSCs differentiated into corneal epithelium like cells.METHODS: 24 New Zealand albino rabbits were randomly divided into 2 groups: The human MSCs combined with amniotic membrane were transplanted onto the experimental animals, and the controls were transplanted with the amniotic membrane only. The MSCs were cultured on preserved human amniotic membrane for 4 days and labeled with 5’-Bromo-2’-deoxyuridine (BrdU), then the cells were transplanted onto the surface of the corneal stroma of the rabbits. The eyeballs were taken off after 1, 2, 3, 4, 6 and 8 weeks. The growth and differentiation of human MSCs were observed by histopathological and immunohistochemical examination.RESULTS: When the MSCs cultured on amniotic membrane were transplanted onto the surface of the corneal stroma of rabbits, the corneal epithelium were positive in CK3/CK12 staining and negative in CK 13 staining, revealed by immunohistochemical examination. The BrdU positive cells in the reconstructive corneal epithelium were found and showed positive in CK3/CK12 staining. CONCLUSION: After transplanted onto the corneal stroma of rabbits with human amniotic membrane, the MSCs survive, proliferate and differentiate into corneal epithelium like cells.     

Mechanism of telomere mainteance in human bone marrow mesenchymal stem cells

AIM： To study the telomere maintenance mechanism in mesenchymal stem calls (MSCs).〖WT5"HZ〗 METHODS：MSCs were isolated from healthy human bone marrow by their adherence to plastic and then were checked with CD14-FITC,CD45-FITC,CD44-FITC,HLA-DR-FITC,CD34-PE,CD29-PE and CD166-PE.Telomere length and ECTR DNA in MSCs were detected by Southern blotting.The localization of TRF1 and promyelocytic leukemia (PML) in MSCs were detected with immunofluorescence staining.TRAP protocol was performed to detect the telomerase activity in MSCs and MSCs-derived adipocytes.Western blotting and TRAP protocol were applied to measure telomerase activity of MSCs,which were synchronized by serum starvation and aphidicolin treatment.〖WT5"HZ〗RESULTS：The telomere in length seemed shorter and relatively more homogeneous in MSCs and HeLa cells than that in WI-38-2RA cells.TRF1 did not concide with PML nuclear body in MSCs and HeLa cells while it exclusively did in WI-38-2RA cells.ECTR DNA was negative in MSCs and HeLa cells but positive in WI-38-2RA cells.Telomerase was negative in MSCs but it was positive in MSCs-derived adipocytes detected by TRAP.Moreover,a cell cycle-dependent expression profile of telomerase was found in MSCs when they were synchronized by serum starvation and aphidicolin treatment.Untreated MSCs expressed very low level of telomerase probed by Western blotting with 2C4 mAb,but the telomerase level had significantly increased when these cells were trapped in S phase.〖WT5"HZ〗CONCLUSION：The telomere of MSCs is maintained by telomerase pathway instead of alternative lengthing of telomere(ALT) and the level of telomerase expression is associated with cell cycle stage.     

Human mesenchymal stem cells differentiate into neuron-like cells with Tanshinone II A

AIM:To investigate the differentiation from human mesenchymal stem cells(hMSC) into neuron-like cells with Tanshinone II A.METHODS:hMSC were separated from rib marrow with Ficoll-Paque reagent and expanded in culture medium. To detect the surface antigens, the labeled cells were analysed on a FACScan flow cytometer to determine the effect of the capacity of proliferation and differentiation of the mesenchymal stem cells with FGF-2. hMSC were induced to differentiate into neurons with DMEM Tanshinone II A. Neuron-specific enolase(NSE), neurofilament(NF), Nestin, glial fibrillary acaidic protein(GFAP) were detected by immunohistochemistry.RESULTS:hMSC were expanded as undifferentiated cells in culture for more than 15 passages. The isolated cultured MSC comprised a single phenotypic population and displayed a fibroblast-like morphology. These expanded attached MSC were uniformly positive for CD29, CD44, CD90, CD105, CD166 and didn't express CD11a, CD14, CD34, CD38, CD45, CD80, CD86. FGF-2 have special effect on low denisity MSCs. Simple methods with Tanshinone II A induced hMSC to exhibit a neuronal phenotype, expressing NSE, NF-M, Nestin at 5 hours. But the neuron-like cells didn't express the glial astrocyte marker GFAP.CONCLUSION:hMSC can be induced to differentiate into neurons with Tanshinone II A.     

Advances in studying the differentiation into neurons of mesenchymal stem cells and their application

Mesenchymal stem cells (MSCs) are a population of multipotent cells that can proliferate and differentiate into marrow and non-marrow cell types, such as adipocytes, chondrocytes, myocytes, and so on. In recent years, many researchers have studied whether MSCs are capable of differentiation into neurons in vivo and ex vivo. The result that MSCs-derived neurons express NSE and NF, but don't express GFAP suggests MSCs can differentiate into neurons, some researchers have achieved success in promoting functional recovery in Pakinsons and transactional spinal cord injury rat models by use of MSCs-derived neurons. Therefore, MSCs-derived neurons will play an important role in the therapy for a variety of diseases of the nervous system.     

Hepatic differentiation of mesenchymal stem cells derived from rats in three-dimensional microenvironment formed by hanging drops

AIM: To establish an optimal differentiated three-dimensional microenvironment formed by hanging drops for the high efficiency of hepatic differentiation from rat mesenchymal stem cells(rMSCs).METHODS: rMSCs were cultured in the hanging drops, which provided a three-dimensional microenvironment, for 21 days in the presence of hepatocyte growth factor(HGF, 20 μg/L). The expression of albumin(ALB), alpha-fetoprotein(AFP) and cytokeratin-18(CK-18) was detected by RT-PCR and immunofluorescence staining at 7th, 14th and 21st days. The secretion of albumin in the culture supernatants was measured by ELISA. RESULTS: rMSCs were aggregated in spheroid with a tubiform medium altitude in the center. In rMSCs cultured in the hanging drops with HGF, the expression of albumin, AFP and CK-18 was all detectable by RT-PCR and immunofluorescence staining at 7th day. The production of albumin in the cells cultured in the hanging drops with HGF was 50.25±5.32, 55.03±7.45 and 54.92±3.18(ng·dish^-1·d^-1) at 7th, 14th and 21st days, respectively, significantly higher than that in the cells in the plate cultivation with or without HGF induction at corresponding time points(P<0.01).CONCLUSION: In the presence of HGF, rMSCs are induced to differentiate into hepatocyte-like cells cultured in the hanging drops, where the three-dimensional spheroidal cultures are promising microenvironment for hepatic transdifferentiation of MSCs.     

Human mesenchymal stem cells differentiate into osteoblasts

AIM:To investigate the differentiation from human mesenchymal stem cells (hMSC) into osteoblasts. METHODS:MSC were separated from human marrow with Ficoll-Paque reagent and expanded in cuture medium. To detect the surface antigens, The labeled cells were analysed on a FACScan flow cytometer. hMSC were induced to differentiate from mesenchymal stem cells into osteoblasts with dexamethasone, vitamin C, β-GP. Cell morphology、AP activity、calcium deposition and osteopontin were detected. P10 MSC were compared to P3 MSC in the tendency of osteoblastic differentiation. RESULTS:The cultured MSC comprised a single phenotypic population and displayed a fibroblast-like morphology. hMSC showed a strong self-renewal capacity. After primary culture, approximately (5-6)×10⁵ cells were obtained. These expanded attached MSC were uniformaly positive for CD29,CD44,CD59,CD105,CD166 and didn’t express CD11a, CD14, CD33, CD34, CD45, CD38, CD80, CD86, CD117. After osteoblasts induction, the cells changed from spindle-shape to cuboidal and polygonal in cell morphology. The AP activity increased gradually and many scattered calcium nodes were observed. The expression of osteopontin was positive. CONCLUSION:hMSC can be induced to differentiate into osteoblasts.     

The correlation between differentiation and apoptosis in the process of differentiation from adult rat mesenchymal stem cells into neuron-like cells

AIM:To supply the theoretic evidences of elongating the lifetime of neuron-like cells differentiated from adult rat mesenchymal stem cells, we investigated the relationship between the differentiation and apoptosis in the process of induction. METHODS: The mesenchymal stem cells(MSCs) were isolated primarily from rat bone marrow, and purified by passage culture. The 5th passage of MSCs was induced by β-mercaptoethanol and all-trans-retinoic acid (ATRA). After 1 h, 3 h and 5 h of induction, the cells were stained immunocytochemically with anti-MAP-2 and anti-GFAP antibodies, respectively. In addition to counting the ratio of neuron-like cells in MSCs, DAPI staining was employed to identify whether the differentiated cells have an apoptotic morphological changes. The ratio of apoptotic cells at 1 h, 3 h and 5 h after induction were detected by flow cytometry (FCM). CONCLUSIONS:1. β-mercaptoethanol and ATRA had the different ability that induced MSCs to differentiate to neuron-like cells. 2. Apoptosis was also initiated in the process of differentiation, and there is positive correlation between the ratio of differentiation and apoptosis.     

《中国蔬菜品种志》

AIM: To characterize the gene expression of sortilin on adipogenic and osteogenic differentiation in mesenchymal stem cells (MSCs) in vitro and explore its significance.METHODS: MSCs derived from human bone marrow were isolated and cultured in vitro, then were stimulated in osteogenic medium and adipogenic medium, respectively. Osteopontin and lipoprotein lipase were detected by RT-PCR. Sortilin expression was analyzed by semiquantitative RT-PCR. RESULTS: 1.MSCs displayed the potential of differentiation into osteoblast and adipocyte. 2.Sortilin was upregulated one day after osteogenic induction and remained upregulated for a week. The expression of sortilin was significant increased on day 3(P＜0.01). 3. No significant changes of sortilin expression was found in adipogenic differentiation (P＞0.05).CONCLUSION: Sortilin may be useful to modulate the osteogenic differentiation and may not be necessary for adipocyte commitment in MSCs. The regulation of sortilin expression may provide new protocal and strategy for the treatment of osteoporosis and osteopenic disease.     

Differentiation of neurons from mouse induced pluripotent stem cells in vitro

AIM: To study the induction method of mouse induced pluripotent stem cells (iPSCs) that differentiate into neurons in vitro. METHODS: Mouse iPSCs were cultured in non-adherent culture dishes for 2 d to form embryoid bodies (EBs). The EBs were cultured for consecutive 2 d in the presence of retinoic acid (RA), and then were plated in the serum-free medium for adherent culture. Seven days later, Pasteur pipette was used to detach the differentiated cells around adherent EBs into “fragment” cell colonies with the help of dissecting microscopes, and these “fragments” were transferred to culture dishes with neural stem cell medium. Another 7 days later, the cells were plated onto the culture dishes using differentiation medium containing fetal bovine serum (FBS) and RA. The morphological changes of the cells were observed under inverted microscope. The iPSCs markers Oct4, Sox2 and SSEA1, the neural stem cell (NSC) marker nestin, the neuronal marker microtubule-associated protein 2 (MAP-2), the astrocyte marker glial fibrillary acidic protein (GFAP) and oligodendrocyte marker myelin basic protein (MBP) were detected by immunofluorescence method. The mRNA expression of GFAP, nestin, β3-tubulin, MAP-2 and MBP was detected by RT-RCR. MAP-2 gene sequence was identified. The proportions of NSCs differentiated from iPSCs and neurons from NSCs were detected by flow cytometry. RESULTS: Mouse iPSCs strongly expressed Oct4, Sox2 and SSEA1, and formed spherical EBs by suspended culture. The EBs were induced by RA and serum-free medium in adherent culture for 2 d, and rosette structure was observed under the microscope. “Fragments” separated by Pasteur pipette from the rosette structure formed neurosphere-like colonies. After the colonies were cultured in adherent condition for 5 d to 7 d in the presence of RA and FBS, the typical neurite was observed under the microscope. The neurospheres expressed nestin and their differentiated derivatives expressed MAP-2, GFAP and MBP, respectively. RT-PCR analysis and gene sequencing showed that the neurons were induced successfully. The results of flow cytometry demonstrated that 63.93%±1.47% of iPSCs differentiated into NSCs and 21.4%±1.70% of NSCs differentiated into neurons. CONCLUSION: Mouse iPSCs proliferate stably and differentiate into neurons in vitro, which provide a reliable source for the treatment of spinal cord injury.