Objective To explore the method that can inducethe mesenchymal stem cells (MSCs) to differentiate into the neuronlike cells in vitro.Methods The neuron-like cells were isolated froman SD rat (age, 3 months; weight, 200 g). They underwent a primary culture; theinduced liquid supernatant was collected, and was identified by the cell immunohistochemistry. The C3H1OT1/2 cells were cultured, as an MSCs model, and they were induced into differentiation by β-mercaptoethanol (Group A) and by the liquid supernatant of the neuron-like primary cells (Group B), respectively. The cells were cultured without any induction were used as a control (Group C). Immunohistochemistrywas used to identify the type of the cells. Results The result of the immunochemistry showed that the cells undergoing the primary culture expressed the neurofilament protein (NF) and the neuronspecific enolase (NSE), and they were neuron-like cells. β-mercaptoethanol could induce the C3H1OT1/2 cells toexpress NF and NSE at 2 h, and the expression intensity increased at 5 h. The liquid supernatant of the primarily-cultured neuron-like cells could induce theC3H1OT1/2 cells to express NF and NSE at 1 d, but the expression intensity induced by the liquid supernatant was weaker than that induced by β-mercaptoethanol. The positivity rate and the intensity expression of NSE were higher than those of NF. Conclusion MSCs can differentiate into the neuron-like cells by β-mercaptoethanol and the microenvironment humoral factor, which can pave the way for a further study of the differentiation of MSCs and the effectof the differentiation on the brain trauma repair.
Objective Toreview theresearch progress of nucleus pulposus cells phenot ypic markers. Methods The domestic and international l iterature about nucleus pulposus cells phenotypic markers was reviewed extensively and summarized. Results Due to different biomechanical properties,nucleus pulposus cells and articular chondrocytes have differences in morphology and extracellular components such as the ratio of aggrecan to collagen type II α1. Nucleus pulposus cells can be identified by surface marker (CD24), gene markers (hypoxia inducible factor 1α, glucosetransporter protein 1, matrix metalloproteinase 2, vascular endothel ial growth factor A, etc), and various markers (keratin 19 and glypican 3,paired box 1, forkhead box F1 and integrin-binding sialoprotein, etc). Conclusion Nucleus pulposus cells and articular chondrocytes have different phenotypic markers, but nucleus pulposus cells are still lack of specific markers.
Objective To observe the effects of cryopreservation and resuscitation on the biological characteristics of mesenchymal stem cells (MSCs) derived f rom human umbilical cord blood. Methods MSCs were isolated and cultured f rom human umbilical cord blood in vitro. The cells were passaged , and the third generation of MSCs were cryopreserved in-196 ℃ liquid nitrogen for 4 weeks with cryopreservation medium , which contained 10 % dimethyl sulfoxide (DMSO) and 90 % fetal calf serum ( FCS) . The morphology , proliferation and differentiation of MSCs were investigated and compared with those of MSCs before cryopreservation. Results There was no significant difference of morphology between pre-cryopreserved MSCs and the ones af ter resuscitation. It was observed that all MSCs were spindle-shaped and showed adherence growth characteristic before and af ter cryopreservation. The cell growth curves of MSCs were also similar before and af ter cryopreservation. Even though the curve of resuscitated MSCs descended a little as compared with that of pre-cryopreserved MSCs , there was no significant difference ( Pgt; 0. 05) . After 2-week adipocytic differentiation induction , fat drops could be found in the kytoplasm of MSCs and they were red when stained with oil-red O staining , which suggested that MSCs could be induced and differentiated into adipocytes. Af ter 4-week osteoblastic differentiation induction , MSCs could be induced and differentiated into osteoblasts , and calcium node showed black when stained with Von Kossa staining. There were no significant changes of the differentiating ability of MSCs into adipocyte and osteoblast before and after cryopreservation. Conclusion MSCs derived from human umbilical cord blood maintains their biological characteristics af ter cryopreservation and resuscitation.
Objective To establish a method of isolating and culturing adult human bloodderived mesenchymal stem cells(MSCs) and to investigate their osteogenic potential in vitro. Methods Thirty peripheral blood sampleswere collected from 30adult volunteers(15 ml per person).Adult human MSCs derived from peripheral blood were isolated from the lymphocyte separation fluid fraction of mononuclear cells, cultured in α-Modified Eagle’s Medium with low glucose containing 20% fetal bovine serum, and proliferated through a process of subculturing. The phenotype of MSCs was analyzed with flow cytometry. For in vitro osteogenic differentiation, MSCs from the second passage grew in the presence of osteogenic supplements (100 nmol/L dexamethasone,10 mmol/L β-glycerophosphate,50 μmol/L vitamin C, and 10 nmol/L 1,25-2-hydroxide vitamin D3). In the fifth passage cells, the activity of alkaline phosphatase, the expression level of collagen typeI, osteocalcin and osteonectin were determined. And the calcium tubercle formation would be examined after the continual one-month culture of the fifth passage. Results MSCs exsited in the pheripheral blood of adult human. And the clone forming efficiency of blood-derived MSCs was 0.27±0.22/106 mononuclear cells. The MSCs expressed CD44,CD54,CD105,and CD166,but did not CD14, CD34, CD45,and CD31.Under the function of osteogenic supplements, the MSCs were found to be higher activity of alkaline phosphatase and higher expression levels of collagen type Ⅰ, osteocalcin and osteonectin. And the calcium tubercle formation was examined throughtetracycline fluorescence labeling method. Conclusion The isolation and cultureconditions established for adult human MSCs may select a distinct population of peripheral blood-derived adherent cells. Adult human blood-derived MSCs possess osteogenic potential in vitro, and may be used as seed cells for bone tissue engineering.
Mesenchymal stem cells (MSCs) are considered as an ideal treatment for multiple diseases including ocular disease. Recent studies have demonstrated that MSCs-derived exosomes have similar functions with MSCs. Exosomes are nanovesicles surrounded by a phospholipid layer that shuttle active cargo between different cells. They are capable of passing the biological barrier and have potentials to be utilized as natural carrier for the ocular drug delivery.
Objective To review the study progress of mesenchymal stem cells induced to differentiate intervertebral disc cells Methods The recent related literature was reviewed. The theorical and experimental studies were summarized. Results MSCs had the potential of multidirectional differentiation.International experimental studies indicated the potential of MSCs induced to differentiate intervertebral disc cells. Conclusion MSCs induced to differentiate intervertebral disc cells has the fine prospect.
Objective To investigate the impact of bone marrow mesenchymal stem cell transplantation on a rat model of experimental autoimmune uveitis (EAU) and analyze its immune regulatory mechanisms in vivo.Methods Eighteen Lewis rats were randomly divided into three groups: model control group, intervention group and normal control group, six animals in each group. Human retinal S-antigen peptide (HS-AgP35, 1 mg/ml) was mixed and emulsified with complete Freundprime;s adjuvant and injected into hind foot pad of rats on the first and eighth day to establish the animal model of EAU. For bone marrow mesenchymal stem cell transplantation, 1 ml of cell suspension (2times;106 cells/ml) was injected into tail vein of the intervention group rats on the first day when the emulsified S-antigen was injected. EAU manifestation, pathological change and IFN-gamma; level were evaluated and compared among those three groups after two weeks. Results No abnormal signs were found in the eyes of rats in normal control group. The manifestation grading of the intervention group (two rats at grade 0, three rats at grade 0.5, one rat at grade one) was significantly different from the model control group (one rat at grade one, one rat at grade two, three rats at grade three, one rat at grade four) (P=0.015). The retina of rats in normal control group was ordinary under light microscope. The histopathologrical grading of the intervention group (one rat at grade 0, four rats at grade 0.5,one rat at grade one) and the model control group (four rats at grade three, two rats at grade four) was also statistically different (P<0.01). Furthermore, the IFN-gamma; level in peripheral blood of the intervention group rats declined significantly compared to the model control group (t=9.0574, P=0.01). Conclusions Bone marrow mesenchymal stem cells can inhibit EAU significantly, possibly by lowering the level of IFN-gamma;, thereby reduce the severity of uveitis and improve the condition of uveitis in rats.
Objective To explore the effects of bone marrow mesenchymal stem cells ( BMMSCs) on pulmonary fibroblasts of patients with nonspecific interstitial pneumonitis ( NSIP) , and investigate the therapeutic mechanism of BMMSCs for interstitial pulmonary fibrosis. Methods Human BMMSCs, human pulmonry fibroblasts ( HPFs) from NSIP patients, and normal HPFs were primary cultured in vitro. Then HPFs fromNSIP patients were co-cultured with BMMSCs or normal HPFs using Transwell co-culture system. After 24 hours, levels of transforming growth factor β1 (TGF-β1) and interferon inducible protein 10 ( IP-10) in culture supernatants were detected by ELISA method. Meanwhile, interleukin-6 ( IL-6) , IL-8, and monocyte chemotactic protein-1 ( MCP-1) in co-culture supernatants were detected by liquid chip. After co-cultured for 48 hours, total protein of HPFs was extracted and the expression level of alpha smooth muscle actin ( α-SMA) secreted by HPFs were detected by Western blot.Results HPFs from NSIP patients secreted higher level of IL-6, IL-8, and MCP-1 than normal HPFs, and secreted high level of α-SMA. In the Transwell co-culture system, human BMMSCs significantly reduced the levels of IL-6, IL-8, and MCP-1 secreted from HPFs of NSIP patients, and reduced the high expression of α-SMA in HPFs of NSIP patients. Conclusion Human BMMSCs can significantly reduce the secretion of IL-6, IL-8, MCP-1, and the expression of α-SMA in HPFs from NSIP patients.
Objective To study the culture and purification of the fetal mouse liver mesenchymal stem cells(MSCs) in vitro and to investigate their differentiation potential and the composite ability with true bone ceramic(TBC). Methods The single cell suspension of MSCs was primarily cultured and passaged, which was prepared from the fetal mouse liver; the flow cytometry was applied to detectCD29, CD34, CD44 and CD45. The osteogenic differentiation was induced in chemical inducing system; the osteogenic induction potency was tested. The purified fetal mouse liver MSCs were compounded with TBC covered with collagen type Ⅰ in vitro and the cell attachment and proliferation to the TBC were observed. Results The primary MSCs of fetal mouse liver were easy to culture in vitro. They proliferated well and were easy to subcultured. The proliferation ability of primary and passaged MSCs was similar. Flow cytometric analysis showed the positive results for CD29, CD44 and the negative results for CD34, CD45. After 7 days of induction, the MSCs expressed collagen type I and alkaline phosphatase(ALP) highly. After 14 days of induction, the fixed quantity of ALP increased significantly. After 28 days of induction, calcium accumulation was observed by Von Kossa’s staining. Many liver MSCs attached to the surface of TBC. Conclusion The MSCs of the fetalmouse liver can be obtained, subcultured and purified easily. After culturing in chemical inducing system, the MSCs of fetal mouse liver can be successfully induced to osteoblast-like cells, attach to the surface of TBC and proliferate well.
Objective To fabricate a novel gelatinchondroitin sulfate-sodium hyaluronate tri-copolymer scaffold and to confirm the feasibility of serving as ascaffold for cartilage tissue engineering. Methods Different scaffolds was prepared with gelatin-chondroitin sulfatesodium hyaluronate tri-copolymer by varying the freezing temperatures (-20℃,-80℃ and liquid nitrogen). Pore size, porosity, inter pores and density were observed with light microscopy and scanning electron microscopy (SEM). The load-stiffness curves were compared between different scaffolds and normal cartilage. The number of MSCs attaching to different scaffolds and the function of cells were also detected with MTT colorimetric microassay. Results The pore size was 300±45, 230±30 and 45±10 μm; the porosity was 81%, 79% and 56%; the density was 9.41±0.25, 11.50±0.36 and 29.50±0.61 μg/mm3 respectively in different scaffolds fabricated at -20℃,-80℃ and liquid nitrogen; the latter two scaffolds had nearly the same mechanical property with normal cartilage; the cell adhesion rates were 85.0%, 87.5% and 56.3% respectively in different scaffolds and the scaffolds can mildly promote the proliferation of MSCs. Conclusion Gelatin-chondroitin sulfatesodium hyaluronate tricopolymer scaffold fabricated at -80℃ had proper pore size, porosity and mechanical property. It is a novel potential scaffold for cartilage tissue engineering.