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.
Abstract: Objective To evaluate the biological characteristics of decellularized bovine jugular vein valved conduit treated with dyemediated photo oxidation. Methods From July 2009 to July 2010, this study was carried out in Xijing Hospital affiliated to the Fourth Military Medical University. Forty bovine jugular vein valved conduits were obtained from Qinchuan scalpers aged between 2 to 6 years with the weight ranged from 200 to 400 kg. Then, the 40 conduits were divided into four groups by random digital table with 10 in each group. The conduits were treated with glutaraldehyde in the glutaraldehyde group (GA group), were decellularized in the decellularized group (DC group), were decellularized and treated with dyemediated photo oxidation in the decellularized and dyemediated photo oxidation treated group (DP group) , and were not dealt with in the control group (CO group). Thickness, appearance, histology, water content, shrinkage temperature, breaking strength, and soluble protein level of the conduit wall and valve were detected and compared among the four groups. Results Thickness and water content of the conduit wall and valve in the DP group were similar to those in the CO group (Pgt;0.05), while thickness of both wall and valve in the DP group was less than those in the GA group (wall: 0.8±0.1 mm vs. 1.1±0.1 mm; valve: 02±0.1 mm vs. 0.3±0.1 mm, Plt;0.05), and water content of the conduit wall and valve in the DP group was more than those in the GA group (wall: 86.1%±2.2% vs. 70.4%±2.8%; valve: 87.1%±2.5% vs. 72.1%±3.1%, Plt;0.05). The breaking strength and shrinkage temperature of the DP group were similar to those of the GA group (Pgt;0.05), while the shrinkage temperature (wall: 84.7±1.4 ℃ vs. 70.4±0.3 ℃; valve: 85.7±1.5 ℃ vs. 70.7±0.6 ℃, Plt;0.05) and the breaking strength (wall: 10.4±1.1 N vs. 6.8±1.0 N; valve: 8.0±0.9 N vs. 3.2±0.6 N, Plt;0.05) of the DP group were higher than those in the CO group. Conclusion Decellularized bovine jugular vein valved conduits treated with dyemediated photo oxidation have nice biological characteristics.Key words: Dyemediated photo oxidation; Decellularized; Bovine jugular vein valved conduit; Biological characteristics
Objective To investigate the biological and biomechanical characteristics of acellular porcine aortic valve with dye mediated photo oxidation so that a new and better bioprosthetic valve materials can be obtained. Methods Thirty porcine aortic valves were divided into three groups with random number table. Acellular valves (n=10) were stabilized by dye mediated photo oxidation in dye mediated photo oxidation group; acellular valves (n=10) were stabilized by glutaraldehyde in glutaraldehyde group; and acellular valves (n=10) were acellularized only in acellular valves group. Thickness, appearance, histology, water content, shrinkage temperature, breaking strength and soluble protein level of acellular porcine aortic in three groups were tested respectively. Results There were light blue, soft, flexible and unshrinking valves in dye mediated photo oxidation group. Compared to valves in glutaraldehyde group, valves in dye mediated photo oxidation group had lighter thickness(0.26±0.09mm vs. 0.38±0.08mm,Plt;0.05), more water content(86.30%±4.03% vs. 71.10%±3.23%,Plt;0.05), and lower shrinkage temperature (76.30±0.70℃ vs. 87.70±0.30℃,Plt;0.05); while these indexes had no statistically significant differences compared to those in acellular valves group. At the same time, compared to valves in acellular valves group, valves in dye mediated photo oxidation group had more breaking strength(17.33±2.65 mPa vs. 9.11±0.95 mPa,Plt;0.05) and lower soluble protein level(0.039%±0.013% vs. 0.107%±0.024%,Plt;0.05); while these indexes had no statistically significant differences compared to those in glutaraldehyde group. Conclusion Acellular porcine aortic valve stabilized by dye mediated photo oxidation has nice biological and biomechanical characteristics.
【Abstract】 Objective To observe the effects of Angelica dahurica extracts on the biological characteristics of human keratinocytes (KC) in vitro and to explore the possible mechanism in promoting wound healing. Methods HaCaT cells of passage 5 from KC were used during the experiment. Different concentrations (5 × 10-2, 5 × 10-3, 5 × 10-4, and 5 × 10-5 g/L) of Angelica dahurica extracts, which was obtained by 95% ethanol from Angelica dahurica raw material, were prepared by DMEM containing 0.25% fetal bovine serum (FBS). After the extracts at different concentrations were respectively used for KC culture for 5 days, the cell proliferation activities were detected by MTT, and DMEM containing 0.25% FBS served as the negative control. According to the cell proliferation activity, the optimal concentration was determined. KC was further treated with Angelica dahurica extracts of the optimal concentration (experimental group) or with DMEM containing 0.25% FBS (control group) for 48 hours. The cell cycle was tested by flow cytometry. Cyclin D1 and Caspase-3 mRNA levels were also detected by real-time fluorescent quantitative PCR technique. Results Angelica dahurica extracts at concentrations of 5 × 10-4, 5 × 10-3,and 5 × 10-2 g/L could significantly enhance KC proliferation, showing significant differences in absorbance (A) values compared with that of control group (P lt; 0.05) with an optimal concentration of 5 × 10-3 g/L. At this concentration, an increased percentage of S and G2/M phase cells and a decreased percentage of G0/G1 phase cells were detected, showing significant differences when compared with control group (P lt; 0.05). Real-time fluorescent quantitative PCR revealed that the cyclin D1 and Caspase-3 mRNA levels of experimental group was significantly down-regulated, showing significant differences when compared with control group (P lt; 0.05). Conclusion Angelica dahurica extracts can promote the proliferation of KC, accelerate the cell cycle of KC by down-regulating mRNA expressions of cyclin D1, and inhibit apoptosis by down-regulating mRNA expressions of Caspase-3. These effects might enhance the process of wound healing by expediting the process of epithelization.
Objective To summarize the research progress of biological characteristics and advantages of Wharton’s jelly-mesenchymal stem cells (WJ-MSCs). Methods The related l iterature on the biological characteristics of WJ-MSCs,umbil ical cord blood MSCs (UBMSCs) and bone marrow MSCs (BMSCs) was extensively reviewed and analyzed. Results A large number of MSCs which are able to self-repl icate, self-renew and have high prol iferation and multipotent differentiation can be isolated from the Wharton’s jelly of umbil ical cord. WJ-MSCs have many advantages in isolation time, isolation efficience, expansion time, passage capacity, expansion capacity when compared with UBMSCs and BMSCs. Conclusion WJ- MSCs have numerous advantages of convenient and abundant sources, relatively pure, non-ethical issues, and so on, which can be used for cell transplant therapy, gene therapy, and the ideal seed cells of building tissue engineered organ, so they provide new ideas for tissue regeneration repair and reconstruction.
【Abstract】 Objective To explore an effective method to cultivate esophageal mucosa epithel ial cells (EMECs)of canine in vitro, and to observe the biological characteristics of EMECs growing on SIS in order to provide an experimental basis for esophagus tissue engineering. Methods Esophageal tissues were obtained from five healthy dogs aged 2 to 5 weeks under sterile conditions. The primary EMECs were cultivated with defined keratinocyte serum free medium (DKSFM) containing 6% FBS. The morphological characteristics and the growth curve of EMECs of the 2nd generation were observed for 1 to 5 days. The expressions of the EMECs marker (cytokeratin 19, CK-19) were examined by immunocytochemistry. The 2nd generation of EMECs was seeded on SIS and observed by HE staining, immunohistochemical staining, and SEM for 4 and 8 days. Results The primary culture of canine EMECs arranged l ike slabstone. Immunohistochemical staining of CK-19 of the2nd generation EMECs showed positive broadly. The cells growth reached the peak level at 2 days by MTT method. E MECs werepolygon in shape and arranged l ike slabstone, and formed a single layer on the surface of SIS. The cells were contact ed closely with each other for 4 days. Eight days later, 2 to 3 layers stratified structure was formed. Lots of EMECs were grown on SIS, andshowed laminate arrangement. Conclusion With mixed enzymatic digestion, the culture of EMECs in DKSFM containing 6 %FBS is a simple and feasible method. SIS shows good biocompatibil ity and can be used as a good scaffold material in th e tissue engineered esophagus.
Objective To research the biological feature of intervertebral disc nucleus pulposus cells (NPCs) by observing cell morphous, phenotype and ultramicrostructure. Methods The NPCs from 2-week-old healthy rabbit werecultured in DMEM/F12 medium with 15% FBS. The cell biological features were observed by inverted phase contrast microscope, l ight microscope, electron microscope, cell vital ity assay, cell growth curve and cells staining after harvest and during the periods of culturing the primary, the 1st passage and 2nd passage. Results The results of inverted phase contrast microscope showed that the primary passage adhered at 5 days, grew exponentially at 6-8 days, and were subcultured after covering the bottom at 17 days. The phenotype of the NPCs changed from polygon to long fusiform with passage increased; the vital ity assay showed that there was about 95%-97%, 98%-100%, 100% and 75%-80% NPCs survived just after isolation from intervertebral disc, during the period of culturing the primary, the 1st passage and the 2nd passage, respectively. The toluidine blue staining of the NPCs was bly positive, and HE staining showed clear cell nucleus and cytoplasm. The I collagen immunohistochemical staining showed negative results in the 1st passage, but II collagen immunohistochemical staining and safranin O staining showed positive results. However, the I collagen immunohistochemical staining showed positive result in the 2nd passage, and II collagen immunohistochemical staining and safranin O staining showed weakly positive results. The cell growth curve showed the same as the growth course of cell cultured in vitro. The results of TEM showed that there were many glycogen particles and less chondriosomes in the primary passage. With the increased passage, the glycogen particles decreased and the chondriosomes increased, and cell organ became swell. Conclusion This study clarifies the biological feature of NPCs in vitro, providing the experimental basis for the seed cell research of the nuclues pulposus tissue.
Objective To explore a method to isolate, culture and multiplicate the placentaderived mesenchymal stem cells (PMSCs) and the bone marrow-derived mesenchymal stem cells (BMSCs) of rabbit,and to compare their biological characteristics. Methods PMSCs were isolated from placenta of 1fetation rabbitby Percoll density gradient centrifuge and cultured in vitro. BMSCs were isolated from hindlimb bone marrow blood of 1 new born rabbit by direct plates culturemethod. The 3rd passage PMSCs and BMSCs were observed by inverted phase contrast microscope. The stem cell marker (CD44, CD105, CD34 and CD40L) were examined by immunohistochemistry. The 2nd passage PMSCs and BMSCs were co-cultured with biomaterials,(1.0-1.5)×106 cells in one biomaterial, and then observed by aematoxylinstaining after 5 days,and by SEM after 3 days and 8 days. Results PMSCs and BMSCs were both uniformly spondle-shaped in appearance and showed active proliferative capacity. The proliferative ability of PMSCs were quite b and declined with passages. After cultured 10 passages in vitro, its growthslowed. Both PMSCs and BMSCs expressed CD44 and CD105,but did not express CD34 and CD40L immunoreactivity. PMSCs and BMSCs poliferated and adhered to the surface of biomaterials, and cell formed clumps and network; the cells proliferation and the matrix were seen in the pore after 5 days of culture. The observation ofSEM showed that many cells adhered to the biomaterials with spindle-shape and polygon after 3 days; and that PMSCs and BMSCs grew,arranged in layers andsecreted many matrices; the reticular collagen formed arround cells after 8 days. Conclusion PMSCs and BMSCs have similar biological characteristics and PMSCs can be served as excellent seedingcells for tissue engineering.
Objective To study the biological behavior of osteoblast and vascular endothelial cell culture. Methods The osteoblasts and vascular endothelial cells were obtained from calvarial bone and renal cortox of 2-week rabbits respectively. The experiment were divided into group A (osteoblasts), group B (vascular endothelial cells) and group C(co-cultured osteoblasts and vascular endothelial cells). The cells were identified with cytoimmunochemical staining. The cellular biological behavior and compatibilitywere observed under inverted phase contrast microscope and with histological staining. The cells viability and alkaline phosphatase(ALP) activity were measured. Results The cytoimmunochemical staining showed that the cultured cells were osteoblasts and vascular endothelial cells .The cellular compatibility of osteoblasts and vascular endothelial cells was good. The ALP activity was higher in group C than in group A and group B(P<0.01), and it was higher in group A than in group B(P<0.05). In group C, the cellproliferation were increased slowly early, but fast later. Conclusion Thecellular compatibility of osteoblasts and vascular endothelial cells were good. The vascular endothelial cells can significantly increased the osteoblast viability and ALP activity,and the combined cultured cells have greater proliferation ability.